JP2004289651A - Image processing apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image processing apparatus which is capable of printing all original image of original size without reducing the original image in size when the original image is larger in size than a printing paper. <P>SOLUTION: The image processing device is equipped with an original image storage means (C1) which stores the image data of the original image to print and the size of the original image; and a division printing designation data forming means (C5) which forms division printing indicating data which indicates that the original image is automatically divided into a plurality of sub-images of the same size with the printing paper and printed on a plurality of printing papers, when the original image is larger in size than the printing paper used for printing the original image. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
[Industrial applications]
The present invention relates to an image processing apparatus for setting print parameters used when printing an original image to be printed and performing print processing based on the print parameters, and in particular, for printing paper on which the size of the original image is printed. The present invention relates to an image processing apparatus that prints all the original images when the size is larger than the size.
[0002]
[Prior art]
Conventionally, when printing multiple pages of original image data including original images of different paper sizes on printing paper of a specified single paper size, pages whose original image size is larger than the printing paper size are However, there is a problem that only a part of the original image size corresponding to the printing paper size is printed.
FIG. 39 is a flowchart of print image data creation processing in a conventional image processing apparatus.
In ST01 of FIG. 39, it is determined whether or not the original image size of the print target page is larger than the print paper size. If no (N), the process moves on to ST02, and if yes (Y), the process moves on to ST03.
[0003]
In ST02, since all the original images fit on the printing paper, all the original images are allocated to the printing paper, and print image data for printing from the original image data is created and printed. Then, the process proceeds to ST04.
In ST03, since the entire original image does not fit on the print paper, an image corresponding to the print paper size is allocated from the upper left of the original image, and print image data corresponding to the allocated image data is created and printed. Then, the process proceeds to ST04.
In ST04, it is determined whether or not there is a remaining page. If yes (Y), the process returns to ST01, and if no (N), the print image data creation processing ends.
[0004]
FIG. 40 is an explanatory diagram of an example of original image data to be printed. FIG. 40A is an explanatory diagram of an original image of the first page, original image size A4, and FIG. 40B is an explanatory diagram of the second page, original image size A3. FIG. 40C is an explanatory diagram of the original image, and FIG. 40C is an explanatory diagram of the original image of the third page, the original image size A3 of which is vertical.
FIG. 41 is an explanatory view of a print image when the original image of FIG. 40 is printed by the print image data creation processing shown in FIG. 39, FIG. 41A is an explanatory view of a print image of the first page, and FIG. FIG. 41C is an explanatory diagram of a printed image of the third page, and FIG. 41C is an explanatory diagram of a printed image of the third page.
[0005]
When the original image of a plurality of pages of different original image sizes shown in FIG. 40 is printed by specifying the print paper of the print paper size A4 length by the print image data creation processing of ST01 to ST04 of FIG. Thus, only part of the images on the second and third pages are printed. That is, since the original image of the first page has the same original image size as the printing paper size, all the original images are printed in ST02, but the original images of the second and third pages have the original image sizes larger than the printing paper size. Therefore, only a part corresponding to the print paper size is printed in ST03.
[0006]
In order to solve this problem, the following prior art (J01) is conventionally known.
(J01) Technology described in Patent Document 1 (Japanese Patent Application Laid-Open No. 2001-197286)
Japanese Patent Application Laid-Open No. H11-163873 discloses that when an original image size (original image size) is larger than a print paper size (or a print area which is an area obtained by equally dividing one page of the print paper), the original image (original image) is There is described a technique for printing by reducing the size to fit in the printing paper size.
[0007]
[Patent Document 1] JP 2001-197286 A (paragraph numbers “0007”, “0026”, “0044” to “0052”)
[0008]
[Problems to be solved by the invention]
In the conventional technology (J01), reduced and non-reduced pages are mixed on an image printing sheet on which a plurality of original images are printed. Therefore, for example, a situation occurs in which characters on a certain page are printed large while characters on a different page are printed small, and there is a problem that a printed image is difficult to read. In addition, when a plurality of images of which the scale is important, such as a design drawing, are printed, if a reduced image and an unreduced image are mixed, there is a problem that the scale cannot be easily understood. In addition, it is necessary to grasp which page is reduced from the printed image, which causes problems such as misleading the user and taking time for understanding.
[0009]
SUMMARY OF THE INVENTION In view of the above-described circumstances, the present invention has the following technical problems (O01) and (O02) in printing an original image including a different original image size.
(O01) When the original image size is larger than the print paper size, all the original images of the original image size are printed without being reduced.
(O02) To enable correspondence between a printed image and an original image to be ascertained from printed image paper on which the image is printed.
[0010]
[Means for Solving the Problems]
Next, the present invention devised to solve the above problem will be described. Elements of the present invention are denoted by reference numerals of the elements of the embodiment in order to facilitate correspondence with the elements of the embodiment described later. Is enclosed in parentheses. The reason why the present invention is described in association with the reference numerals of the embodiments described below is to facilitate understanding of the present invention and not to limit the scope of the present invention to the embodiments.
[0011]
(The present invention)
In order to solve the above-mentioned problems, an image processing apparatus according to a first aspect of the present invention includes the following components (A01) and (A02).
(A01) original image storage means (C1, C31A) for storing image data of an original image to be printed and an original image size which is the size of the original image;
(A02) When the original image size is larger than the print paper size that is the size of the print paper used for printing the original image, the original image is automatically divided into a plurality of print papers of the print paper size. Division print designation data creating means (C5) for creating division print designation data for designating printing.
[0012]
In the image processing apparatus provided with the configuration requirements (A01) and (A02), the original image storage means (C1, C31A) stores the image data of the original image to be printed and the original image size which is the size of the original image. Remember. When the original image size is larger than the print paper size, which is the size of the print paper used for printing the original image, the divided print designation data creating means (C5) prints the original image by a plurality of print paper sizes. Create split print designation data that specifies to automatically divide and print on paper.
Therefore, when the original image size is larger than the print paper size which is the size of the print paper used for printing the original image, the original image is divided by the divided print designation data created by the image processing device of the first invention. Since it is specified that printing is automatically performed by dividing into multiple printing papers of the printing paper size, if the original image size is larger than the printing paper size, all original images of the original image size are not reduced. It can be divided and printed on a plurality of printing papers. As a result, in the original image data of a plurality of pages, when the original image size is different for each page, or when, for example, all the A3 original images are to be printed on A4 printing paper, a part of the image is printed, It is possible to prevent printing at a reduced size.
[0013]
In order to solve the above-mentioned problem, an image processing apparatus according to a second aspect of the present invention is provided with the following constituent features (A01) and (A02 ').
(A01) original image storage means (C1, C31A) for storing image data of an original image to be printed and an original image size which is the size of the original image;
(A02 ') When the original image size is larger than the print paper size used for printing the original image, the original image is automatically divided into a plurality of print papers of the print paper size. A divided print image data creating means (C36) for creating divided print image data for each print sheet in order to perform printing.
[0014]
In the image processing apparatus according to the second aspect of the present invention having the above-mentioned configuration requirements (A01) and (A02 '), the original image storage means (C1, C31A) stores the image data of the original image to be printed and the size of the original image. A certain original image size is stored. When the original image size is larger than the print paper size that is the size of the print paper used for printing the original image, the divided print image data creating means (C36) divides the original image into a plurality of print paper sizes. In order to automatically divide and print on print paper, divided print image data is created for each print paper.
Therefore, when the original image size is larger than the print paper size that is the size of the print paper used for printing the original image, the divided image data is automatically created by the image processing apparatus of the second invention. By printing the divided print image data, when the original image size is larger than the print paper size, all the original images of the original image size are divided and printed on a plurality of print papers without being reduced. As a result, in the original image data of a plurality of pages, when the original image size is different for each page, or when, for example, all the A3 original images are to be printed on A4 printing paper, a part of the image is printed, It is possible to prevent printing at a reduced size.
[0015]
Further, the image processing device of the first invention or the image processing device of the second invention can have the following configuration requirement (A03).
(A03) Automatically dividing the original image into a plurality of sheets of the printing paper size when the original image size is larger than the size of the printing paper as a printing parameter required for printing the original image. (C4) for specifying whether or not to execute automatic split printing for printing in accordance with a user's input.
Therefore, the user can designate whether or not to perform automatic division by the divided print designation means (C4).
[0016]
Further, the image processing device of the first invention or the image processing device of the second invention can have the following constituent requirements (A04) and (A05).
(A04) When the original image is divided into a plurality of the printing papers and printed when the original image size is larger than the printing paper size, the original image is divided and printed on the printing paper in a state of being rotated by 90 degrees. Means for determining the number of sheets of paper used before and after rotation (C35A) for determining whether or not the number of sheets of printing paper used decreases.
(A05) If the number of sheets of printing paper to be used is smaller when the original image is rotated by 90 degrees and the printing is performed on the printing paper, it is set that the printing is performed while the original image is rotated by 90 degrees. Automatic rotation setting means (C35B).
[0017]
In the image processing apparatus according to the first or second aspect of the present invention including the configuration requirements (A04) and (A05), the original image size is larger than the print paper size in the before and after rotation paper number discrimination means (C35A). In the case where the original image is divided and printed on a plurality of the printing papers, it is determined whether or not the divided printing on the printing paper in a state where the original image is rotated by 90 degrees reduces the number of printing papers used. Determine. If the number of sheets of printing paper to be used is smaller when the original image is rotated by 90 degrees and divided printing is performed on the printing paper, the rotation of the original image is rotated by 90 degrees by the automatic rotation setting means (C35B). Is set to perform division printing.
Therefore, in the case where the number of sheets of printing paper to be used is smaller when the original image is rotated by 90 degrees and divided printing is performed on the printing paper, a printing device or the like can print the original image while rotating the original image by 90 degrees. In the case where the number of sheets of printing paper to be used is reduced by performing division printing on the printing paper without rotating the original image by 90 degrees, printing can be performed without rotating the original image. As a result, the number of print sheets used can be reduced, and the printing cost can be reduced. Further, since the number of used sheets is set to be small, the margin area where no image is printed can be reduced as compared with the case where the number of used sheets is large.
[0018]
Further, the image processing apparatus of the first invention or the image processing apparatus of the second invention can have the following configuration requirement (A06).
(A06) When the original image is larger than the print paper size and the original image is automatically divided into a plurality of print papers and printed, the print is performed in a state where the original image paper is rotated by 90 degrees. In the case where the number of sheets of printing paper to be used becomes smaller when performing the division printing on the paper, and when performing the division printing in a state where the original image is rotated by 90 degrees, the automatic rotation direction which is the direction in which the original image is rotated is automatically set. Automatic rotation direction automatic setting means (C35B1) for setting the rotation automatically.
Therefore, the direction in which the original image is rotated can be automatically set by the automatic rotation direction automatic setting means (C35B1), so that the user does not have to specify it every time printing is performed, and the work efficiency can be improved. it can.
[0019]
Further, the image processing apparatus of the first invention or the image processing apparatus of the second invention can have the following configuration requirement (A07).
(A07) A binding position setting means (C35C) for setting a binding position of the printed printing paper in accordance with a user input.
Therefore, the user can input and specify the binding position of the printing paper.
[0020]
Further, the image processing device of the first invention or the image processing device of the second invention can have the following constituent requirements (A07) and (A08).
(A07) a binding position setting means (C35C) for setting a binding position of the printed printing paper in accordance with a user input;
(A08) The automatic rotation direction automatic setting means (C35B1) for automatically setting the automatic rotation direction according to the setting of the binding position.
Therefore, even if the user does not set the automatic rotation direction, the automatic rotation direction is automatically set based on the setting of the binding position, so that the user can save time and effort.
[0021]
Further, the image processing apparatus of the first invention or the image processing apparatus of the second invention can have the following configuration requirement (A09).
(A09) A division printing order setting means (C35D) for setting a division printing order, which is an order for dividing and printing the original image, according to a user's input.
Therefore, printing can be performed by dividing in the division printing order specified by the user.
[0022]
Further, the image processing device of the first invention or the image processing device of the second invention can have the following constituent requirements (A07), (A08), and (A010).
(A07) a binding position setting means (C35C) for setting a binding position of the printed printing paper in accordance with a user input;
(A08) the automatic rotation direction automatic setting means (C35B1) for automatically setting the automatic rotation direction according to the setting of the binding position;
(A010) A division print order automatic setting unit (C35D1) for automatically setting a division print order, which is an order of dividing and printing the original image, based on the setting of the binding position and the automatic rotation direction.
Therefore, if the user specifies the binding position, the automatic rotation direction and the division printing order are automatically set, so that the user can save time and effort.
[0023]
Further, the image processing apparatus of the first invention or the image processing apparatus of the second invention can have the following configuration requirement (A011).
(A011) In accordance with the size of the finished paper formed in a state where a plurality of printing papers used at the time of divided printing are arranged side by side, the original image size, and an image position designation value set by a user input. An image position setting means (C35E) for setting an image position at which the original image is printed on the finished paper.
Therefore, the image position of the original image is set based on the image position specified value specified by the user, and the original image can be divided and printed according to the setting of the image position.
[0024]
Further, the image processing device of the first invention or the image processing device of the second invention can include the following constituent requirements (A07), (A08), and (A012).
(A07) a binding position setting means (C35C) for setting a binding position of the printed printing paper in accordance with a user input;
(A08) automatic rotation direction automatic setting means (C35B1) for automatically setting an automatic rotation direction which is a rotation direction when rotating the original image by 90 degrees according to the setting of the binding position;
(A012) Automatic image position setting means (C35E1) for automatically setting the image position based on the binding position and the automatic rotation direction.
Therefore, if the user specifies the binding position, the automatic rotation direction and the image position are automatically set, so that the user can save time and effort.
[0025]
Further, the image processing device of the first invention or the image processing device of the second invention can have the following configuration requirements (A013).
(A013) When the original image is divided and printed, division position information indicating a positional relationship between divided image printing papers on which the divided image obtained by dividing the original image is printed is allocated to each divided image printing paper. Position information allocating means (C35F).
Therefore, it is possible to grasp the positional relationship between the divided image printing sheets on which the divided images are printed, based on the divided position information. Therefore, when the division position information is printed on the divided image printing paper, the user can grasp the positional relationship between the divided image printing papers and reproduce the original image based on the positional relationship. Can be easily arranged.
[0026]
Further, the image processing device of the first invention or the image processing device of the second invention can have the following configuration requirement (A014).
(A014) Reference direction information allocating means (C35G) for setting any one of upper, lower, left and right directions as the reference direction with respect to the original image, and allocating reference direction information indicating the reference direction to the divided image obtained by dividing the original image. .
Therefore, it is possible to easily grasp the vertical and horizontal positional relationship between the original image and the divided image printing paper and the vertical and horizontal positional relationship between the divided image printing papers based on the reference direction. Further, when the original image is rotated by 90 degrees, it is also possible to grasp that the image is automatically rotated and printed.
[0027]
Further, the image processing apparatus of the first invention or the image processing apparatus of the second invention can have the following constituent features (A015) and (A016).
(A015) When double-sided printing is designated, when a plurality of divided images divided from one original image are double-sided printed and bound at a set binding position, a page on which the divided images are printed is displayed. In the case where the subsequent page is printed on the back side of the previous page, and the divided images printed on the previous page and subsequent pages are shifted by one page, the previous page and the next Continuous image determining means (C35H) for determining whether or not the divided image of the page is a continuous image;
(A016) When the continuous image determining means (C35H) determines that the previous page and the next page are continuous images when the divided image is shifted one page at a time, Page adjustment means (C35I) for allocating blank image data to pages and allocating the divided image data of the preceding page and subsequent pages to pages shifted by one page.
Therefore, when the continuous image discriminating means (C35H) determines that the image is a continuous image, a blank sheet is allocated to the previous page and the page order is shifted one page at a time, thereby binding a double-sided printed sheet. Furthermore, it can be adjusted so that a continuous image is formed at the time of double-page spread.
[0028]
(Third invention)
According to another aspect of the present invention, there is provided an image processing apparatus including the following components (B01) to (B03).
(B01) original image storage means (C1, C31A) for storing image data of an original image to be printed and an original image size which is the size of the original image;
(B02) a print parameter setting screen display means (C2) for displaying a print parameter setting screen (1) which is a screen for setting print parameters necessary for printing the original image on printing paper;
(B03) whether or not to execute automatic division printing for automatically dividing and printing the original image on a plurality of sheets of the printing paper size when the original image size is larger than the size of the printing paper on which the printing is performed; A divided print designation image display means (C4A) for displaying a divided print designation image (4) for designating the divided print designation image (4) on the print parameter setting screen (1) and an input to the divided print designation image (4). A division printing designation unit (C4) having a division printing availability storage unit (C4B) for storing whether or not to execute automatic division printing.
[0029]
In the image processing apparatus according to the third aspect of the present invention having the above-mentioned constituent features (B01) to (B03), the original image storage means (C1, C31A) stores the image data of the original image to be printed and the size of the original image. The original image size is stored. The print parameter setting screen display means (C2) displays a print parameter setting screen (1) for setting print parameters necessary for printing the original image on printing paper. In the print parameter setting screen (1), when the original image size is larger than the size of the printing paper to be printed by the divided print designation image display means (C4A) of the division print designation means (C4), A divided print designation image (4) is displayed for designating whether or not to execute automatic divided printing in which an image is automatically divided and printed on a plurality of sheets of the print sheet size. Then, whether or not to execute the automatic division printing specified by the input to the division printing designation image (4) is stored by the division printing possibility storage means (C4B).
[0030]
Therefore, the image processing apparatus according to the third aspect of the invention can specify whether or not to execute the automatic split printing while checking the split print designation image (4) displayed on the print parameter setting screen (1). Therefore, when execution of automatic division printing is designated, an image whose original image size is smaller than the printing paper size is normally printed, and an original image larger than the printing paper size is automatically divided and printed. Therefore, when the original image size is larger than the print paper size, all the original images of the original image size can be divided and printed on a plurality of print papers without reduction. As a result, in the original image data of a plurality of pages, when the original image size is different for each page, for example, when all the original images of A3 are to be printed on the printing paper of A4, only a part of the image is printed. , Can be prevented from being reduced in size and printed.
[0031]
Further, the image processing apparatus according to the third aspect of the present invention having the above-mentioned configuration requirements can also have the following configuration requirements (B03 ').
(B03 ') Whether to execute automatic division printing for automatically dividing and printing the original image on a plurality of sheets of the printing paper size when the original image size is larger than the size of the printing paper on which the printing is performed. A divided print availability initial designated value storage unit (C4C) for storing divided print availability as an initial value of the divided print availability designation value for designating whether or not the divided print availability is designated.
Therefore, the original image larger than the printing paper size can be automatically divided and printed based on the initial value without the user's designation, so that the user's labor can be saved.
[0032]
Further, the image processing apparatus according to the third aspect having the above-described configuration requirements can also include the following configuration requirement (B04).
(B04) when the original image size is larger than the print paper size and the original image is automatically divided into a plurality of print papers and printed, the original image paper is rotated by 90 degrees and the printing is performed. In the case where the number of sheets of printing paper to be used is smaller when the printing is divided and performed on the paper, the auto-rotation designation image (5) for designating that the original image paper is automatically rotated by 90 degrees to perform the divided printing is provided. An automatic rotation designation image display means (C6A) for displaying on the print parameter setting screen (1), and an automatic rotation designation presence / absence for storing presence / absence of designation of automatic rotation designated by inputting to the automatic rotation designation image (5) Automatic rotation designation means (C6) having storage means (C6B).
[0033]
Therefore, in the case of performing the division printing by inputting to the automatic rotation designation image (5), when the original image paper is rotated by 90 degrees and the division printing is performed on the printing paper, the number of used printing papers is reduced. Can be specified whether to automatically rotate. Therefore, the user can specify whether or not to perform automatic rotation. When the user specifies that automatic rotation is to be performed (automatic rotation is to be performed), when the number of sheets to be used is small, automatic rotation is performed and divided printing is performed. Waste and a large blank area can be prevented.
[0034]
Further, the image processing apparatus according to the third aspect of the present invention having the above-mentioned configuration requirements can also have the following configuration requirements (B04 ').
(B04 ') Automatic rotation direction initial for storing a designated initial value of an automatic rotation direction, which is a direction in which the original image is automatically rotated when the original image paper is automatically rotated by 90 degrees and divided printing is performed. Designated value storage means (C6C).
Therefore, the automatic rotation direction of the original image is specified based on the initial value even if the user does not specify, so that the user can save time and effort.
[0035]
Further, the image processing apparatus of the third invention having the above-mentioned configuration requirements can also have the following configuration requirement (B05).
(B05) a binding position designation image display means (C7A) for displaying a binding position designation image (6) for designating a binding position of the printed printing paper on the print parameter setting screen (1), and the binding position A binding position storage means (C7B) for storing a binding position designation value designated by input to the designated image (6).
Therefore, the binding position can be designated by the user's input to the binding position designation image (6).
[0036]
Further, the image processing apparatus according to the third aspect of the present invention having the above-described configuration requirements can also have the following configuration requirement (B05 ′)
(B05 ') Binding position designation initial value storage means (C7C) for storing an initial value of a binding position designation value for designating a binding position of the printed printing paper.
Therefore, the binding position is designated based on the initial value even if the user does not designate, so that the user's trouble can be saved.
[0037]
Further, the image processing apparatus according to the third aspect of the present invention having the above-described configuration requirements can also have the following configuration requirement (B06).
(B06) A divided print order designation image display means for displaying a divided print order designation image (7) for designating a divided print order which is an order for dividing and printing the original image on the print parameter setting screen (1). (C8A) and a divided print order designating means (C8) having a divided print order storage means (C8B) for storing a divided print order designated by input to the divided print order designated image (7).
Therefore, the division printing order can be designated by the user's input to the division printing order designation image (7).
[0038]
Further, the image processing apparatus according to the third aspect having the above-described configuration requirements can also have the following configuration requirement (B06 ′).
(B06 ') The divided print order automatic designation image (7a) for designating that the divided print order is automatically set based on the binding position and the automatic rotation direction of the printed printing paper. An automatic split print order designation image display means (C8C1) displayed on the parameter setting screen (1) and the presence or absence of designation of the automatic setting of the split print order designated by inputting to the split print order automatic designation image (7a) are stored. Divided print order automatic setting designation storage means (C8C2).
Therefore, even if the user does not make the specification, the division printing order is specified based on the initial value, so that the user can save time and effort.
[0039]
The image processing apparatus according to the third aspect of the present invention having the above-described configuration requirements can also have the following configuration requirement (B07).
(B07) An image position designation image (8) for designating an image position at which an original image is to be printed on a finished sheet formed in a state where a plurality of printing sheets used in divided printing are arranged side by side. An image position designation image display means (C9A) displayed on the print parameter setting screen (1), and an image position storage means (C9B) for storing an image position designation value designated by input to the image position designation image (8). And (c9).
Therefore, the image position can be designated by the user's input to the image position designation image (8).
[0040]
Further, the image processing apparatus according to the third invention having the above-described configuration requirements can also have the following configuration requirement (B08).
(B08) When the original image is divided and printed, dividing position information indicating a positional relationship between divided image printing sheets on which the divided image obtained by dividing the original image is printed is allocated to each of the divided image printing sheets. To the division position information assignment designation image display means (C10A) for displaying the division position information assignment designation image (9) for designating the image on the print parameter setting screen (1), and to the division position information assignment designation image (9). And a division position information allocation designation storage means (C10B) for storing the presence / absence of designation of division position information allocation designated by the input of (C10).
Accordingly, it is possible to specify whether or not to allocate the division position information by inputting the division position information allocation designation image (9) by the user.
[0041]
Further, the image processing apparatus according to the third invention having the above-described configuration requirements can also have the following configuration requirement (B09).
(B09) A reference direction for setting any one of upper, lower, left, and right directions with respect to the original image as a reference direction, and specifying that reference direction information indicating the reference direction is assigned to a divided image obtained by dividing the original image. A reference direction information assignment designation image display means (C11A) for displaying the information assignment designation image (10) on the print parameter setting screen (1); and a reference designation by input to the reference direction information assignment designation image (10). Reference direction information designating means (C11) having reference direction information assignment designation storage means (C11B) for storing the presence or absence of designation of direction information assignment.
Therefore, it is possible to designate whether or not to assign the reference position information by inputting the reference direction information assignment designation image (10) by the user.
[0042]
Further, the image processing apparatus according to the third aspect of the present invention having the above-described configuration requirements can also have the following configuration requirement (B010).
(B010) When double-sided printing is specified and a plurality of divided images divided from one original image are bound at a set binding position by performing double-sided printing, a page on which the divided image is printed is displayed. In the case where the subsequent page is printed on the back side of the previous page, and the divided images printed on the previous page and subsequent pages are shifted by one page, the previous page and the next When the divided image of the page is a continuous image, a page in which blank image data is allocated to the previous page and the divided image data of the previous page and subsequent pages are allocated to a page shifted by one page A page adjustment designation image display means (C12A) for displaying a page adjustment designation image (11) for designating whether or not to execute adjustment on the print parameter setting screen (1); and the page adjustment designation image (11). Whether page adjustment specified by input to憶 Page regulation specifies whether storage means for (C12B) and page adjusting designating means having a (C12).
Therefore, whether or not to perform page adjustment can be designated by inputting to the page adjustment designation image (11) by the user.
[0043]
(Embodiment)
Next, embodiments of the present invention will be described with reference to the drawings, but the present invention is not limited to the following embodiments.
(Embodiment 1)
FIG. 1 is an explanatory diagram of Embodiment 1 of the print processing system of the present invention.
In FIG. 1, a printer (printing apparatus, image processing apparatus) Pr is connected to a printer server (image processing apparatus) PS of the print processing system S via a cable. The printer server PS is connected to a local network LN, and a plurality of client personal computers (image processing apparatuses) PC, workstations WS, database servers DBS, and the like are connected to the local network LN.
[0044]
The client personal computer PC, the database server DBS, and the like include a computer main body H1, a display H2, a keyboard (input device) H3, a mouse (input device) H4, an HD drive (hard disk drive) not shown, a CD drive (compact disk drive), and It is composed of an FD drive (flexible disk drive) and the like.
The printer server PS also includes a computer main body D1, a display D2, an input device for a keyboard D3 and a mouse D4, a hard disk drive (not shown), and the like, like the client personal computer PC and the like.
[0045]
(Function of client PC)
FIG. 2 is a block diagram (functional block diagram) showing functions of the client personal computer of the print processing system shown in FIG.
In FIG. 2, a computer main body H1 of a client personal computer PC includes an I / O (input / output interface) for inputting / outputting signals to / from external devices and adjusting input / output signal levels, and programs and data for performing necessary processing. (Read only memory), RAM (random access memory) for temporarily storing necessary data, and CPU (central processing unit) for performing processing in accordance with a program stored in a hard disk, a ROM, or the like. ), And a clock oscillator.
The client PC having the above configuration can realize various functions by executing programs stored in the hard disk, the ROM, or the like.
[0046]
In the hard disk drive of the client personal computer PC, an application program AP such as word processing software or image processing software, and a print parameter setting program for designating print parameters such as a size of a print sheet at the time of division printing and designation of division printing. (Print Parameter Setting Means, Image Processing Program) P1 and print data generation for generating print data for transmission including the print parameters set by the print parameter setting program P1 and the original image data, and transmitting the print data to the printer server PS. A program (image processing program) P2 is stored. The print parameter setting program P1 and print data creation program P2 have the following function realizing means (program modules).
[0047]
FIG. 3 is an explanatory diagram of a divided print setting screen displayed on the display of the client personal computer or the printer server by the function realizing means of the print parameter setting program of the present invention.
FIG. 4 is an explanatory diagram of a print start input screen of an application program incorporated in the client personal computer.
(Function of the print parameter setting program P1)
C1: Original image storage means
The original image storage means C1 stores the image data of the original image to be printed which is created by the application program AP and instructed to print, and the original image size which is the size of the original image.
C2: Division print setting screen display means (print parameter setting screen display means)
The split print setting screen display unit C2 displays a split print setting screen (print parameter setting screen) 1 (see FIG. 3) which is a screen for setting print parameters necessary for printing the original image. The split print setting screen 1 is divided into a print start input screen (a screen for designating a print range and the number of prints, etc., see FIG. 4) 2 displayed when the user selects start of printing in the application program AP. Displayed when the setting of is selected. In FIG. 4, the print start input screen 2 displays a print paper setting image 3 and a divided print designation image 4, which will be described later. In FIG. 3, the split print setting screen 1 displays a double-sided print designation image 1a for designating whether or not to perform double-sided printing, an automatic rotation designation image 5, which will be described later, a binding position designation image 6, and the like. Is done.
[0048]
C3: printing paper setting means
The printing paper setting unit C3 includes an available paper size storage unit C3A, a printing paper setting image display unit C3B, a printing paper setting value storage unit C3C, and a printing paper initial setting value storage unit C3D. Set and store the paper size of the printing paper to be used.
C3A: Usable paper size storage means
The usable paper size storage unit C3A stores the size of the printing paper usable in the printer Pr. In the first embodiment, fixed sizes (A4, A3, B5, etc.) are stored (registered) in advance as sizes of printing paper usable in the printer Pr. The usable print paper size may be obtained from the printer server PS via the local network LN from the printer server PS via information on the paper size currently available in the printer Pr, or the user may use an input device (keyboard H3 or mouse H4). ) May be configured to store the value input and set in step (1).
[0049]
C3B: print paper setting image display means
The print paper setting image display means C3B displays a print paper setting image 3 for setting the size of the print paper on the print start input screen 2. The print paper setting image 3 is configured by a spin control button, and displays a designated print paper size among the usable paper sizes stored in the usable paper size storage unit C3A. The print paper setting image 3 can be composed of radio buttons, images for displaying a list of registered print paper sizes, and the like. Further, the print paper setting image 3 may not be displayed on the print start input screen 2 but may be displayed on the divided print setting screen 1. It is also possible to provide a paper setting screen.
[0050]
C3C: printing paper set value storage means
The print paper setting value storage means C3C stores the print paper size determined by inputting the print paper setting image 3 by a user's input device (keyboard H3, mouse H4) into a use print paper specification size (use print paper specification size setting value). ). C3D: printing paper initial setting value storage means
When the printing start input screen 2 is displayed, the printing paper initial setting value storage unit C3D stores the used printing paper size initial setting value as the initial setting value of the used printing paper size. In the first embodiment, A4 is stored as the initial setting value of the printing paper size used in the previous period.
[0051]
C4: Division print designation means
The divided print designation unit C4 includes a divided print designation image display unit C4A, a divided printability storage unit C4B, and a divided printability initial designation value storage unit C4C, and the original image size is smaller than the size of the printing paper. When the size is large, a designation is made as to whether or not to execute automatic division printing for automatically dividing and printing the original image on a plurality of sheets of the printing sheet size.
C4A: Division print designation image display means
The split print designation image display means C4A automatically splits and prints the original image on a plurality of sheets of the print paper size when the original image size is larger than the size of the print paper to be printed. Is displayed on the print start input screen 2 for specifying whether or not to execute the printing. It should be noted that the divided print designation image 4 may be displayed on the divided print setting screen 1.
[0052]
C4B: Division printability storage means
The divisional printing availability storage unit C4B stores whether or not to execute automatic divisional printing specified by inputting to the divisional print designation image 4.
C4C: Divided printing availability initial designated value storage means
When the original image size is larger than the size of the printing paper on which the printing is to be performed, the divided printability initial designated value storage unit C4C automatically divides the original image into a plurality of sheets of the printing paper size and prints the divided original image. Divided printing is possible as an initial value of the divided printing permission / prohibition specification value for specifying whether or not to execute automatic divided printing (division printing is performed in the divided printing designation image 4 of the printing start input screen 2 in FIG. 4). Is stored.
[0053]
C5: Division print designation data creation means
When the original image size is larger than the print paper size that is the size of the print paper used for printing the original image, the divided print designation data creating unit C5 converts the original image into a plurality of print papers of the print paper size. Create split print designation data that specifies to automatically divide and print. In the first embodiment, when the execution of the divided printing is designated by the divided printing designation unit C4, the designated divided printing designation data is created, and when the execution is not designated, the divided printing designation data without the designation is created. Create
C6: Automatic rotation designation means
The automatic rotation designation means C6 has an automatic rotation designation image display means C6A, an automatic rotation designation presence / absence storage means C6B, and an automatic rotation direction initial designation value storage means C6C, and the original image size is smaller than the printing paper size. When the original image is automatically divided and printed on a plurality of the printing papers in the case of being large, when the original image paper is rotated by 90 degrees and divided printing is performed on the printing paper, the number of printing papers used is smaller. If so, the user specifies that the original image paper is to be divided and printed while being automatically rotated by 90 degrees.
[0054]
C6A: Automatic rotation designation image display means
When the original image size is larger than the print paper size and the original image is automatically divided into a plurality of print papers and printed, the automatic rotation designation image display means C6A In the case where the number of sheets of printing paper to be used is smaller when the printing is divided and printed on the printing paper in a rotated state, an automatic rotation for designating the divided printing with the original image paper automatically rotated by 90 degrees The designated image 5 is displayed on the divided print setting screen 1. The automatic rotation designation image 5 is constituted by radio buttons, and "automatic" for designating that an automatic rotation direction, which is a rotation direction when rotating the original image, is automatically set based on a binding position described later. "Rotate right" to rotate the original image 90 degrees clockwise, "Rotate left" to rotate the original image 90 degrees left, and specify not to rotate the original image. "Do not rotate" is displayed.
[0055]
C6B: Automatic rotation designation presence / absence storage means
The automatic rotation designation presence / absence storage means C6B stores the presence / absence of designation of automatic rotation designated by input to the automatic rotation designation image 5. In other words, when "do not rotate" is selected in the automatic rotation designation image 5, it is stored that there is no designation of automatic rotation, and when any of "auto", "left rotation" and "right rotation" is selected. , The automatic rotation designation is stored.
C6C: Automatic rotation direction initial designated value storage means
The automatic rotation direction initial designated value storage means C6C stores a designated initial value of an automatic rotation direction, which is a direction in which the original image is automatically rotated when the original image paper is automatically rotated by 90 degrees and divided printing is performed. Is stored. In the first embodiment, “automatic” is stored as the initial value of the designation of the automatic rotation direction.
[0056]
C7: Binding position designating means
The binding position designation unit C7 includes a binding position designation image display unit C7A, a binding position storage unit C7B, and a binding position designation initial value storage unit C7C, and sets a binding position of a print sheet on which an image is printed.
C7A: binding position designation image display means
The binding position designation image display means C7A displays the binding position designation image 6 for designating the binding position of the printed printing paper on the divided print setting screen 1. The binding position designation image 6 according to the first embodiment is configured by a radio button. The binding position of the printing paper is “left” binding at the left end of the printing paper, “right” binding at the right end, and “upper” binding at the upper end. And an image for selecting "lower side" to be bound at the lower end.
[0057]
C7B: binding position storage means
The binding position storage unit C7B stores a binding position designation value (“left side” or the like) designated by input to the binding position designation image 6.
C7C: Binding position designation initial value storage means
The binding position designation initial value storage means C7C stores an initial value of a binding position designation value for designating a binding position of the printed printing paper. In the first embodiment, “left side” is stored as an initial value of the binding position designation value.
[0058]
C8: Division printing order designation means
The divided print order designating unit C8 includes a divided print order designated image display unit C8A, a divided print order storage unit C8B, and a divided print order automatic setting designation unit C8C, and designates a divided print order (divided order). Store the specified value.
C8A: Division print order designation image display means
The divided print order designation image display means C8A displays the divided print order designation image 7 for designating the divided print order, which is the order of dividing and printing the original image, on the divided print setting screen 1. The division print order designation image display unit C8A of the first embodiment displays “set division order” of the division order designation image 7 on the division print setting screen 1, and the “set division order” is an input device (keyboard). H3), a division order selection screen different from the division print setting screen 1 (see the division order selection screen in FIG. 10 described later) is displayed. Note that the division print order designation image display means C8A can be configured to display the division order selection screen in the division print setting screen 1.
[0059]
C8B: Division printing order storage means
The divided print order storage unit C8B stores the divided print order specified by inputting to the divided print order designation image 7. In the first embodiment, “split print order automatic” for automatically setting the split order or split print order selected and input on the split order selection screen displayed when the split order designation image 7 is selected is stored.
C8C: Division print order automatic setting designation means
The split print order automatic setting designating means C8C is a split print order automatic designation image for designating that the split print order is automatically set based on the binding position of the printed printing paper and the automatic rotation direction. 7A (refer to “Auto” in the divided print order designating image 7) on the divided print setting screen 1; Storage unit C8C2 for storing whether or not there is designation of automatic setting of divided printing order.
[0060]
C9: Image position designation means
The image position designation unit C9 has an image position designation image display unit C9A and an image position storage unit C9B. The image position designation unit C9 has a plurality of print sheets to be used at the time of divisional printing. Specifies the image position where the image is printed.
C9A: Image position designation image display means
The image position designation image display means C9A is an image position for designating an image position at which an original image is to be printed on a finished sheet formed in a state where a plurality of printing sheets used in division printing are arranged side by side. The designated image 8 is displayed on the divided print setting screen 1. The image position designation image display means C9A of the first embodiment displays the “image position setting” of the image position designation image 8 on the divided print setting screen 1, and the “image position setting” is an input device (keyboard H3). Etc.), an image position selection screen (refer to a division order selection screen in FIG. 12 described later) is displayed. Note that the image position designation image display means C9A may be configured to display the image position selection screen in the image position designation image 8.
[0061]
C9B: Image position storage means
The image position storage means C9B stores an image position designation value designated by inputting to the image position selection screen. The image position storage means C9B of the first embodiment performs “image position automatic” for automatically setting the image position selected or input on the image position selection screen displayed when the image position designation image 8 is selected. Remember.
C10: Division position information allocation designation means
The division position information allocation designation unit C10 has division position information allocation designation image display unit C10A and division position information allocation designation storage unit C10B, and when the original image is divided and printed, the original image is divided. It is designated that divided position information indicating the positional relationship between the divided image printing papers on which the divided images are printed is allocated to each of the divided image printing papers.
[0062]
C10A: Division position information allocation designation image display means
When the original image is divided and printed, the divided position information allocation designation image display means C10 displays the divided position information indicating the positional relationship between the divided image printing sheets on which the divided images obtained by dividing the original image are printed. A division position information assignment designation image 9 for designating assignment to each division image print sheet is displayed on the division print setting screen 1. C10B: division position information allocation designation storage means
The division position information allocation designation storage means C10B stores the presence / absence of designation of division position information allocation designated by input to the division position information allocation designation image 9. That is, when the division position information is designated as “attached”, the designation of division position information allocation is stored as “present”, and when the division position information is designated as “not attached”, the designation of division position information allocation is stored as “absent”.
[0063]
C11: Reference direction information designating means
The reference direction information designating means C11 has a reference direction information layout designation image display means C11A and a reference direction information layout designation storage means C11B, and sets any one of the upper, lower, left and right directions as the reference direction with respect to the original image. Then, it designates that reference direction information indicating the reference direction is allocated to the divided image obtained by dividing the original image. In the first embodiment, “upward” is set as the reference direction. The reference direction can be arbitrarily set, and can be specified by a user.
C11A: Reference direction information allocation designation image display means
The reference direction information allocation designation image display means C11A sets any one of upper, lower, left, and right directions as the reference direction with respect to the original image, and allocates reference direction information indicating the reference direction to a divided image obtained by dividing the original image. Then, a reference direction information allocation designation image 10 for designating this is displayed on the divided print setting screen 1.
[0064]
C11B: Reference direction information allocation designation storage means
The reference direction information allocation designation storage means C11B stores the presence / absence of designation of the reference direction information allocation designated by input to the reference direction information allocation designation image 10. That is, when the reference direction information is designated as “attach”, the designation of the reference direction information is stored as “present”, and when the reference direction information is designated as “not attach”, the designation of the reference direction information is stored as no designation.
C12: Page adjustment designating means
The page adjustment designation unit C12 includes a page adjustment designation image display unit C12A and a page adjustment designation presence / absence storage unit. When double-sided printing is designated, a plurality of divided images divided from one original image are displayed. When the double-sided printing is performed at the set binding position, the subsequent page is printed on the back side of the previous page among the pages on which the divided images are printed, and the previous page and subsequent pages are printed. If the divided images to be printed on a page are shifted one page at a time, and if the divided images of the previous page and the next page are continuous images, blank image data is allocated to the previous page. Specifies whether or not to execute a page adjustment (adjustment of page order) for allocating the divided image data of the preceding page and subsequent pages to a page shifted by one page.
[0065]
C12A: Page adjustment designation image display means
When two-sided printing is designated, the page adjustment designation image display means C12A performs a two-sided printing operation on a plurality of divided images divided from one original image and binds them at a set binding position. In the case where the subsequent page is printed on the back side of the previous page in the printed pages, and the divided images to be printed on the previous page and subsequent pages are shifted by one page, When the divided image of the next page and the next page are continuous images, blank image data is allocated to the previous page, and the divided image data of the previous page and subsequent pages is shifted by one page. A page adjustment designation image 11 for designating whether or not to execute the page adjustment to be assigned to the divided pages is displayed on the divided print setting screen 1.
C12B: Page adjustment designation storage means
The page adjustment designation presence / absence storage means C12B stores the presence / absence of designation of page adjustment designated by input to the page adjustment designation image 11. That is, when the page adjustment is designated as “performed”, the page adjustment designation is stored as “present”, and when the page adjustment is designated as “not performed”, the page adjustment designation is stored as “absent”.
[0066]
(Function of the print data creation program P2)
C21: Print data creation means
The print data creation unit C21 includes image data of the original image stored in the original image storage unit C1, the original image size that is the size of the original image, and divided print designation data (printing) that designates that the original image be divided and printed. Parameters) and print data including the following. Further, the print data creation unit C21 of the first embodiment determines whether to execute the specified value of the print paper size stored in the print paper set value storage unit C3C and the divided printing stored in the divided print designation availability storage unit C4B. No., the designated value of the automatic rotation designation stored in the automatic rotation designation presence / absence storage means C6B, the designated value of the binding position stored in the binding position storage means C7B, and the divided print order storage means C8B. The designated value of the divided printing order, the designated value of the image position stored in the image position storage unit C9B, the designated value of the presence / absence of the division position information allocation stored in the division position information allocation designation storage unit C10B, and the reference A mark having a designated value of the presence / absence of reference direction information assignment stored in the direction information assignment designation storage means C11B and a designated value of presence / absence of page adjustment stored in the page adjustment designation presence / absence storage means C12B. To create a print data including parameters.
[0067]
C22: print data transmission means
The print data transmitting unit C22 transmits the print data created by the print data creating unit C21 to the printer server PS as print data for transmission.
In the first embodiment, the workstation WS, the database server DBS, and the like do not have the function realizing means C1 to C22, unlike the client PC. However, it goes without saying that the workstation WS, the database server DBS, and the like can be configured to include the respective function realizing means C1 to C22.
[0068]
(Function of printer server PS)
FIG. 5 is a block diagram (functional block diagram) showing the functions of the printer server and the printer of the print processing system shown in FIG.
The computer main body D1 of the printer server PS (see FIG. 1) includes an I / O (input / output interface) for inputting / outputting an external signal and adjusting an input / output signal level, and programs and data for performing necessary processing. (Random access memory) for temporarily storing necessary data, a hard disk drive, and a CPU (central processing unit) that performs processing according to a program stored in the RAM or ROM. Arithmetic processing unit), a clock oscillator, and the like.
The printer server PS configured as described above can realize various functions by executing programs stored in the hard disk drive, RAM, or ROM.
[0069]
In FIG. 5, the print information processing means P3 of the printer server (print processing apparatus, image processing apparatus) PS has the following function realizing means (program modules).
C31: received print data storage means
The reception print data storage unit C31 has an original image storage unit C31A and a print parameter storage unit C31B, and stores the transmission print data transmitted by the print data transmission unit C22 as reception print data when the transmission print data is received. I do. The original image storage unit C31A stores the original image data and the original image size, similarly to the original image storage unit C1 of the print parameter setting program P1 of the client personal computer PC.
C31B: Print parameter storage unit
The print parameter storage unit C31B stores print parameters included in the received print data.
[0070]
FIG. 6 is an explanatory diagram of a main screen displayed on the display of the printer server by the function realizing means of the print information processing means of the present invention.
C32: Main screen display means
The main screen display means C32 displays the main screen 16 (see FIG. 6) for displaying the printing progress and the like on the display D2. In FIG. 6, the main screen 16 includes a print job display image 16a indicating a print job currently being printed, a preview screen 16b displaying a print image currently being printed, and a status of the print job currently being printed (what A print status display image 16c that displays whether a page print job remains, a print job display image 16d that displays a print job that has not been printed yet or a print job for which job hold is specified, and a print job An error job display image 16e that displays a print job that has been tried but has an error due to a paper size mismatch, etc., and a work icon display image 16f that displays work icons such as print start and job deletion. have.
[0071]
P1: Print parameter setting program
The print parameter setting program P1 is configured similarly to the print parameter setting program P1 of the client personal computer PC, and includes the same function realizing means C1 to C12. When the divided print setting of the job selected in the held job display image 16d or the error job display image 16e of the main screen 16 is selected, the divided printing is performed by each of the function realizing units C1 to C12 of the print parameter setting program P1. The setting screen 1 and the like are displayed on the display D2.
[0072]
C33: display control means
The display control means C33 controls switching of display of an image displayed on the display D2 such as the main screen 16 and the divided print setting screen 1 and the like.
C34: print designation processing means
The print designation processing unit C34 includes a divided print designation determination unit C34A, a job holding processing unit C34B, and an error processing unit C34C, and designates execution of a print job of received print data (designation of divided print or job Is determined and processed.
[0073]
C34A: Division print designation determining means
The split print designation determining unit C34A determines whether or not automatic split printing is specified in the print parameters of the received print data. It should be noted that the printer server PS and the printer Pr can be set so that automatic division printing is always performed. In this case, the division printing designation discriminating means C34A can be omitted.
C34B: Job holding processing means
The job holding processing means C34B holds and stores (stores) the job holding designation discriminating means C34B1 for judging whether or not the received print data is job holding designated, and the received print data (image data) of the print job designated for job holding. And a holding job erasing unit C34B3 for erasing the selected holding job. The job holding designation can be designated on the print start input screen 1. The job holding designation is specified by the job holding designation data for specifying whether or not job holding is included in the received print data. Can be determined.
[0074]
C34C: Error processing means
The error processing unit C34C includes an error job determination unit C34C1 that determines that the print job (error job) cannot be executed when the print paper corresponding to the original image size is not usable or the like. And error job data storage means C34C2 for holding (storing) received print data of the print job as error job data.
[0075]
C35: print parameter processing means
The print parameter processing unit C35 includes a number-of-rotation-use-sheets determining unit C35A, an automatic rotation setting unit C35B, a binding position setting unit C35C, a division printing order setting unit C35D, an image position setting unit C35E, and division position information allocation. It has means C35F, reference direction information allocating means C35G, continuous image discriminating means C35H, and page adjusting means C35I, and is set by the print parameter included in the received print data or the print parameter setting program P1 of the printer server PS. The print parameter processing is executed for each page of the original image based on the print parameters thus obtained.
C35A: means for determining the number of sheets of paper used before and after rotation
When the original image size is larger than the print paper size, the original image is rotated by 90 degrees when the original image is divided into a plurality of print papers and printed when the original image size is larger than the print paper size. Then, it is determined whether or not the number of sheets of printing paper to be used is reduced by performing the division printing on the printing paper. In the first embodiment, when the automatic division printing is specified, the discrimination is performed by the number-of-rotations-used-sheets discriminating unit C35A.
[0076]
C35B: Automatic rotation setting means
The automatic rotation setting means C35B has an automatic rotation direction automatic setting means C35B1, and when the original image is rotated by 90 degrees and divided printing is performed on the printing paper, the number of used printing papers decreases. Sets that the image is to be divided and printed with the image rotated by 90 degrees. In the present embodiment, whether or not to perform automatic rotation and an automatic rotation direction in the case of automatic rotation are determined based on a specified value (“right rotation”, “do not rotate”, etc.) specified by the automatic rotation of the print parameter. Set for each page of the original image.
C35B1: Automatic rotation direction automatic setting means
When the original image size is larger than the print paper size, the automatic rotation direction automatic setting unit C35B1 automatically divides the original image paper into a plurality of the print papers and prints the original image paper by 90 degrees. When the divided printing on the printing paper is performed in a rotated state, the number of used printing papers is reduced, and when the divided printing is performed in a state where the original image is rotated by 90 degrees, the original image is rotated in the rotating direction. Set an automatic rotation direction automatically. In the present embodiment, when the designated value of the automatic rotation is set to “automatic”, the automatic setting of the automatic rotation direction is performed, and the automatic rotation direction is determined based on the setting of the binding position. It is set for each page of data.
[0077]
C35C: binding position setting means
The binding position setting unit C35C sets a binding position of the printed printing paper in accordance with a user input. In the present embodiment, the binding position of the printing paper is set according to the designated value of the binding position of the print parameter designated by the user's input. C35D: Division print order setting means
The division print order setting means C35D automatically sets a division print order (division order), which is an order of dividing and printing the original image, based on the setting of the binding position and the rotation direction. C35D1 and sets the division printing order according to a user input. In the present embodiment, the division printing order is set for each page of the original image according to the designation of the division printing order of the printing parameters specified by the user's input (such as “automatic” or “top left horizontal priority”). . When the division printing order is designated as “automatic”, in the present embodiment, the division printing order is automatically set by the division printing order automatic setting means C35D1 based on the setting of the binding position and the rotation direction. .
[0078]
C35E: Image position setting means
The image position setting means C35E includes an image position automatic setting means C35E1 for automatically setting an image position, which is a position where the original image is printed on the finished paper, based on the binding position and the rotation direction. The image position is set according to the size of the finished paper formed in a state where a plurality of printing papers to be printed are arranged side by side, the original image size, and an image position designation value designated by a user input. In the present embodiment, the image position is set for each page of the original image in accordance with the specification of the image position of the print parameter specified by the user's input ("automatic", "upper left", "upper right", etc.). . In the case where the image position is designated as “automatic” by a user input, in the present embodiment, the image position is automatically set by the image position automatic setting means C35E1 based on the setting of the binding position and the rotation direction. Is done.
[0079]
C35F: Division position information allocating means
When the original image is divided and printed, the division position information allocating unit C35F divides the original image into division image information indicating the positional relationship between the division image printing sheets on which the division images obtained by dividing the original image are printed. Assign to printing paper. In the present embodiment, the number of pages of the original image (see FIG. 24 and the like, which will be described later) and the entire divided image printing paper on which one original image is divided and printed are used as division position information to be allocated to each divided image printing paper. , A vertical division position display value (see FIGS. 24B and 26, etc., which will be described later) which is a numerical value indicating the position of the divided image printing paper in the vertical direction, and a horizontal division position display which is a numerical value indicating the horizontal arrangement position. It has a value (see FIG. 24B described later) and layout image information indicating the position of the divided image print sheet with respect to the entire divided image print sheet by a reduced image. The division position information is not limited to these, and any display can be adopted.
[0080]
C35G: Reference direction information allocating means
The reference direction information allocating unit C35G sets any one of upper, lower, left, and right directions as the reference direction with respect to the original image, and allocates reference direction information indicating the reference direction to the divided image obtained by dividing the original image. In the present embodiment, the reference direction is set to the upward direction, and arrows are used as reference direction information indicating the reference direction (see FIGS. 24B and 25A described later). When the original image is rotated, by rotating the arrow in the automatic rotation direction, the reference direction information can grasp the presence or absence of automatic rotation or grasp the upward direction of the divided image.
C35H: continuous image discriminating means
The continuous image determining unit C35H prints the divided image when a plurality of divided images divided from one original image are bound at a set binding position by performing duplex printing when double-sided printing is designated. In the case where the subsequent page is printed on the back side of the previous page among the pages, and the divided images to be printed on the previous page and subsequent pages are shifted by one page, Then, it is determined whether or not the divided image of the next page is a continuous image. In the present embodiment, it is determined whether or not the image is a continuous image based on the binding position and the division position information. The determination can be made based on the division order or the like, and the determination method is not limited to this.
[0081]
C35I: Page adjustment means
When the continuous image determining unit 35H determines that the divided image is shifted one page at a time, and determines that the divided image of the previous page and the next page is a continuous image, , And the divided image data of the preceding page and the subsequent pages are assigned to pages shifted by one page. In the present embodiment, when the page order is specified to be adjusted by the user's input, the page is adjusted by the page adjusting unit C35I.
[0082]
C36: Division print image data creation means
When the original image size is larger than the print paper size that is the size of the print paper used for printing the original image, the divided print image data creating unit C36 converts the original image into a plurality of print papers of the print paper size. Then, the divided print image data created for each print sheet for automatically dividing and printing is created. In the present embodiment, according to the print parameters included in the received print data and the settings for each page of the original image set based on the specification of the print parameters set by the print parameter setting program P1 of the printer server PS. , Divided print image data is created. C37: print control means (printer controller)
The print control unit C37 transmits the divided print image data created by laying out the print paper to the printer, and controls the printing operation of the printer (printing device, image processing device) Pr.
[0083]
(Printer function)
In FIG. 5, a printer Pr includes an I / O (input / output interface) for inputting / outputting an external signal and adjusting an input / output signal level, and a ROM storing a program and data for performing necessary processing. (Read only memory), RAM (random access memory) for temporarily storing necessary data, CPU (central processing unit) for performing processing according to a program stored in RAM or ROM, clock oscillator, etc. have.
The printer Pr having the above configuration can realize various functions by executing a program stored in the hard disk drive, the RAM, or the ROM.
[0084]
The printer (printing device, image processing device) Pr has the following function realizing means (functional realizing process, program module).
C41: Image recording means
The image recording unit C41 stores, in accordance with the control of the print control unit C36, the print image data, which is transmitted from the printer server PS and is assigned to each of the image recording areas of each of the print sheets, in each image of each of the print sheets. Print on the area.
[0085]
(Description of Flowchart of First Embodiment)
(Flowchart of client PC)
FIG. 7 is a flowchart of a print setting process in the client personal computer of the print processing system according to the first embodiment of the present invention.
The processing of each ST (step) in the flowchart of FIG. 7 is executed according to the processing of the CPU of the client personal computer PC.
[0086]
In ST1 of FIG. 7, it is determined whether or not the start of the printing process is selected in the application program AP of the client personal computer PC. If no (N), ST1 is repeated, and if yes (Y), the process moves to ST2.
In ST2, the print start input screen 2 shown in FIG. 4 is displayed on the display H2. Then, the process proceeds to ST3.
In ST3, it is determined whether or not "print start" is selected on the print start input screen. If no (N), the operation moves on to ST4, and if yes (Y), the operation moves on to ST9.
In ST4, it is determined whether or not “cancel” is selected on the print start input screen 2. If no (N), the process moves on to ST5, and if yes (Y), the process moves on to ST10.
[0087]
In ST5, input of a print range, the number of copies, designation of job holding, and the like are performed on the print start input screen 2 shown in FIG. 4, and a paper feed tray and a discharge tray are displayed on an option setting screen (not shown) displayed when an option is selected. It is determined whether or not there has been an input such as the designation of. If yes (Y), the operation moves on to ST6, and if no (N), the operation moves on to ST7.
In ST6, the input data such as the print range and the print paper size (print parameters) made on the print start input screen 2 are stored in the input data temporary storage means, and the print start input screen 2 is displayed in response to the input. To update. Then, the process returns to ST3.
In ST7, it is determined whether or not “divided print setting” is selected on the print start input screen 2. If no (N), the process returns to ST3, and if yes (Y), the process proceeds to ST8.
In ST8, a division setting process (refer to a subroutine in FIG. 8 described later) is executed to designate print parameters such as a division order and an image position at the time of divided printing, and temporarily store the designated values. Then, the process returns to ST3.
[0088]
In ST9, since “start printing” is selected in ST3, print image data corresponding to the input data (print range and number of copies) temporarily stored in ST6 and divided print data specified in ST8 and the like. Transmission print data including print parameters is created by the print data creation unit C21, and transmitted to the printer server PS by the print data transmission unit C22. Then, the print start input screen 2 is closed, the process returns to ST1, and waits until print process start is selected.
In ST10, since "cancel" is selected on the print start input screen 2, each designated value temporarily stored in ST6 or ST8 is deleted (discarded). Then, the print start input screen 2 shown in FIG. 4 is closed, the process returns to ST1, and waits until print process start is selected.
[0089]
Accordingly, in the client PC, the designation of the print range and the like and the designation of the divided printing are performed by the processing of ST1 to ST10, and the print image data (original image data) based on the designations and the division order are divided. Transmission print data including print parameters such as designation and designation of an image position is created and transmitted to the printer server PS.
[0090]
(Explanation of division setting process)
FIG. 8 is a flowchart of a subroutine of the division setting process of the print setting process of FIG.
In ST21 of FIG. 8, the divided print setting screen 1 shown in FIG. 3 is displayed, and the process proceeds to ST22.
[0091]
(Change of division order)
In ST22, it is determined whether or not an input for selecting “setting of division order” has been made on the division print setting screen 1. If yes (Y), the operation moves on to ST23, and if no (N), the operation moves on to ST25.
In ST23, a division order change process (refer to a subroutine of FIG. 9 described later) for specifying a division order (division printing order) when dividing and printing when the original image size is larger than the printing paper size is executed. Then, the process proceeds to ST24.
In ST24, the division print designation is set to be present. That is, the divided print designation data indicating that the divided print is designated is temporarily stored. Then, the process returns to ST22.
Therefore, when “set division order” of the divided print order designation image 7 is selected by the processing of ST22 to ST24, the division order (divided print order) is designated by the division order change processing of ST23.
[0092]
(Change image position)
In ST25, it is determined whether or not an input for selecting “image position setting” has been made in the image position designation image 8 on the divided print setting screen 1. If yes (Y), the operation moves on to ST26, and if no (N), the operation moves on to ST27.
In ST26, an image position setting process (refer to a subroutine in FIG. 11 described later) for specifying the position of the image with respect to the finished paper on which the divided image print papers divided and printed are arranged is executed, and the process proceeds to ST24.
Therefore, when “setting of image position” of the image position specifying image 8 is selected by the processing of ST25, ST26, and ST24, the image position is specified by the image position setting processing of ST26.
[0093]
(Change other print parameters)
In ST27, on the divided print setting screen 1, the presence or absence of double-sided printing, the binding position, the rotation direction of the image, the adjustment of the page order (page adjustment), the presence of the divided display (divided position information), and the presence or absence of the rotated display (reference direction information) are determined. It is determined whether or not a selection input has been made. If yes (Y), the operation moves on to ST28, and if no (N), the operation moves on to ST29.
In ST28, the designated value selected and inputted is temporarily stored, and the display of the division setting screen 1 is updated based on the inputted designated value. Then, the process proceeds to ST24. Therefore, by the processing of ST27, ST28, and ST24, the presence / absence of double-sided printing, the binding position, the rotation direction of the image, the adjustment of the page order, the designation of the divided display and the presence / absence of the rotated display, which are selectively input, are temporarily stored, and the division setting The display on screen 1 is updated.
[0094]
In ST29, it is determined whether or not “OK” is selected and input on division setting screen 1. If yes (Y), the operation moves on to ST30, and if no (N), the operation moves on to ST31.
In ST30, the designated values of the print parameters are updated to the designated values temporarily stored in ST23, ST24, ST26 and ST28. Then, the division setting screen is closed, and the process returns to ST8 of the flowchart of the print setting process in the client personal computer of FIG.
In ST31, it is determined whether or not “cancel” on the division setting screen 1 has been selected. If yes (Y), the operation moves on to ST32, and if no (N), the operation returns to ST22.
In ST31, the update data temporarily stored in ST23 or the like is deleted. Then, the division setting process ends, and the process returns to ST8 of the flowchart of the print setting process in the client personal computer of FIG.
[0095]
(Explanation of subroutine of division order setting processing)
FIG. 9 is a flowchart of a subroutine of the division order changing process in the division setting process of FIG.
FIG. 10 is an explanatory diagram of a division order selection screen.
If “set division order” is selected on the division print setting screen 1 in ST41 of FIG. 9, a division order selection screen shown in FIG. 10 is displayed on the display H2. On the division order selection screen, the user selects the division order (such as “upper left horizontal priority” in FIG. 10) and selects and inputs “OK” and “Cancel” by using an input device such as the keyboard H3 and the mouse H4. Can be. Then, the process proceeds to ST42.
[0096]
In ST42, it is determined whether or not there has been an input in which the division order (such as “top left horizontal priority”) has been selected on the division order selection screen. If yes (Y), the operation moves on to ST43, and if no (N), the operation returns to ST44.
In ST43, the following processes (1) and (2) are executed.
(1) Temporarily store the division order (division printing order) selected and input.
(2) Update the display on the division order selection screen of the selected division order.
FIG. 10 shows a display of the division order selection screen when “upper left vertical priority” is selected.
Then, the process returns to ST42.
In ST44, it is determined whether or not “OK” is selected and input on the division order selection screen. If yes (Y), the operation moves on to ST45, and if no (N), the operation moves on to ST46.
[0097]
In ST45, the following processes (1) to (3) are executed.
(1) The designation (designation value) of the division order is updated in the temporarily stored division order.
(2) Update the display of the division order on the division setting screen 1 to “user setting”.
(3) Close the division order selection screen.
Then, the division order setting process ends, and the process returns to ST23 of the division setting process of FIG.
In ST46, it is determined whether or not “cancel” is selected and input on the division order selection screen. If yes (Y), the operation moves on to ST47, and if no (N), the operation moves on to ST22.
In ST47, the temporarily stored division order is deleted, and the division order selection screen is closed. Then, the division order setting process ends, and the process returns to ST23 of the division setting process of FIG.
[0098]
(Explanation of subroutine of image position setting processing)
FIG. 11 is a flowchart of a subroutine of the image position setting process in the image position setting process of FIG.
FIG. 12 is an explanatory diagram of the image position selection screen.
In step ST51 of FIG. 11, when “set image position” is selected on the divided print setting screen 1, an image position selection screen shown in FIG. 12 is displayed on the display H2. On the image position selection screen, the user can select an image position (eg, “upper left” in FIG. 12) and select and input “OK” or “Cancel” using an input device such as a keyboard H3 or a mouse H4. . Then, the process proceeds to ST52.
[0099]
In ST52, it is determined whether or not an image position (such as “upper left”) has been selected on the image position selection screen. If yes (Y), the operation moves on to ST53, and if no (N), the operation returns to ST54.
In ST53, the following processes (1) and (2) are executed.
(1) Temporarily store the image position selected and input.
(2) Update the display of the selected image position on the image position selection screen.
Then, the process returns to ST52.
In ST54, it is determined whether or not “OK” is selected and input on the image position selection screen. If yes (Y), the operation moves on to ST55, and if no (N), the operation moves on to ST56.
[0100]
In ST55, the following processes (1) to (3) are executed.
(1) Update the designated image position (specified value) to the temporarily stored image position.
(2) Update the display of the image position on the division setting screen 1 to “user setting”.
(3) Close the image position selection screen.
Then, the image position setting process ends, and the process returns to ST23 of the division setting process of FIG. In ST56, it is determined whether or not “cancel” is selected and input on the image position selection screen. If yes (Y), the process moves to ST57, and if no (N), the process moves to ST22.
In ST57, the temporarily stored image position is deleted and the image position selection screen is closed. Then, the image position setting process ends, and the process returns to ST23 of the division setting process of FIG.
[0101]
(Printer server flowchart)
FIG. 13 is a main flowchart of a process in the printer server of the print processing system according to the first embodiment of the present invention.
The processing of each ST (step) in the flowchart of FIG. 13 is executed according to the processing of the CPU of the printer server PS.
The flowchart of FIG. 13 is started when the power of the printer server PS is turned on.
[0102]
In ST101 of FIG. 13, the main screen 16 shown in FIG. 6 is displayed, and the process proceeds to ST102.
In ST102, it is determined whether or not transmission print data from the client personal computer PC has been received (whether or not data has been input). If yes (Y), the operation moves on to ST103, and if no (N), the operation moves on to ST112. At this time, information of the received print data (identification information of the client personal computer PC that transmitted the print data, date and time of reception, total number of pages, and the like) is displayed in a list in the holding job display image 16d of the main screen 16 in the order received. Is done.
In ST103, it is determined whether or not the received print data (job) is designated to hold the job. If yes (Y), the operation moves on to ST104, and if no (N), the operation moves on to ST106.
[0103]
In ST104, since the received print data is designated to hold the job, the received print data is copied to the job holding memory. At this time, of the received print data listed in the held job display image 16d of the main screen 16, the print data for which job holding is specified is marked with a check box to indicate that the job holding is specified. Checked.
Then, the process proceeds to ST105.
In ST105, it is determined whether or not the received print data designated to hold the job is designated to be printed. If yes (Y), the operation moves on to ST106, and if no (N), the operation moves on to ST108. That is, when the print data is transmitted, the divided print cannot be set. If it is desired to execute the divided print on the print data transmitted from the workstation WS or the like according to the present embodiment, it is necessary to specify the holding of the job when transmitting the print data. In addition, by designating not to print, the print parameters can be designated on the divided print setting screen 1 of the printer server to perform divided print.
[0104]
Therefore, it is determined whether or not the received print data includes the job holding designation and the printing designation by the processes of ST102 to ST105, and the job holding process (ST104) is executed. Accordingly, the display of the main screen 16 is performed. Be updated. On the main screen 16 of the printer server PS, the received print data is displayed as a list in the held job display image 16d in the order of reception, and is printed in order from the print data with the oldest reception time. When printing is performed, the print job display image 16a is updated so that the information of the received print data is displayed in the print job display image 16a. If the job holding is not designated, information is displayed on the print job display image 16a at the time of printing, and the information of the received print data to be printed is deleted from the list of the held job display image 16d.
[0105]
In ST106, it is determined whether or not the received print data to be printed has a designation of divided printing (that is, whether or not the received print data to be printed includes divided print designation data). If yes (Y), the process moves to ST107, and if no (N), the process moves to ST109.
In ST107, an image recording area of each print sheet on which the original image is divided and printed is calculated, and divided image data to be printed on each print sheet is created and transmitted to the printer Pr (see FIG. 14 described later). Is executed, and the routine goes to ST108.
In ST108, it is determined whether or not the power of the printer server has been turned off. If yes (Y), the process in the printer server is terminated; if no (N), the process returns to ST102, where input from the client personal computer PC or the like (reception of print data for transmission) or an input device of the printer server PS ( Wait for user's input by keyboard D3 or mouse D4).
[0106]
In ST109, it is determined whether or not printing paper corresponding to the image size (original image size) is usable. For example, if the original image is A3 size, whether the A3 printing paper is usable (whether the printer Pr is recognized as A3 usable paper, whether the paper in the paper feed tray is exhausted or not) Etc.). If yes (Y), the operation moves on to ST110, and if no (N), the operation moves on to ST111.
In ST110, print image data corresponding to the image size is created and transmitted to the printer. That is, since printing paper corresponding to the image size can be used, normal printing is performed without division printing. The printer Pr that has received the print image data prints the received print image data on print paper corresponding to the image size. Then, the process proceeds to ST108.
In ST111, the following processes (1) and (2) are executed.
(1) Register the received print data to be printed as an error job.
(2) Store the received print data in the error job memory.
That is, since the printing paper corresponding to the image size cannot be used and printing cannot be performed, the received print data to be printed is processed as an error job without printing, and the next received print data listed in the held job is printed. Execute the process.
Then, the process proceeds to ST108.
[0107]
In ST112, on the main screen 16, of the received print data specified to hold the job or the received print data registered in the error job, “start printing” (refer to ST118 described later) of the work target job specified by the user (see ST118). It is determined whether or not the work icon display image 16f in FIG. 6 has been selected. If yes (Y), the process moves to ST106, and if no (N), the process moves to ST113.
In ST113, it is determined whether or not “split print setting” of the work target job is selected on main screen 16. If yes (Y), the operation moves on to ST114, and if no (N), the operation moves on to ST115.
In ST114, the split print setting screen 1 is displayed on the display D2 of the printer server PS, and a split setting process similar to the split setting process (subroutine in FIG. 8) in ST8 of the print setting process of the client personal computer PC in FIG. 7 is performed. Executed for work target jobs. Then, the process returns to ST102.
[0108]
In ST115, it is determined whether or not “job deletion” of the work target job is selected. If yes (Y), the operation moves on to ST116, and if no (N), the operation moves on to ST117.
In ST116, the received print data of the work target job is deleted. That is, if the deletion of the print data designated to hold the job is selected, the received print data of the job holding memory is deleted, and if the deletion of the error job is selected, the received print data of the error job memory is deleted. Will be erased. Then, the process returns to ST102.
In ST117, it is determined whether or not an input for designating any of the jobs listed in the held job display image 16d or the error job display image 16e on the main screen 16 is made. If yes (Y), the process moves to ST118, and if no (N), the process returns to ST102.
In ST118, the designated job is stored as a work target job, and the display on main screen 16 is updated.
[0109]
Therefore, in the processing of ST112 to ST118, for the job (received print data) or the error job for which the job holding is specified, the setting such as "set division printing", "start printing", "delete job", or the like is performed. The work can be executed by the printer server PS. In the case where the division setting process can be executed by all the client personal computers PC or the case where the division print setting (designation of print parameters) does not need to be performed in the printer server PS, it is not necessary to provide the processes of ST113 and ST114. Absent. Further, when it is not necessary to hold the job because the print server PS does not specify printing or other settings, the processing of ST103 and ST104 can be omitted.
[0110]
(Explanation of subroutine of division print processing)
FIG. 14 is a flowchart of a subroutine of the division printing process in the process of the printer server of FIG.
In ST121 of FIG. 14, the total number of pages Nt of the original image is stored, and the process proceeds to ST122.
In ST122, the following processes (1) and (2) are executed.
(1) Set 1 to the number Na of divided print setting determination pages.
(2) Initialize (reset) the number of print sheets (actual pages) Nb to be actually printed to 0.
Then, the process proceeds to ST123.
In ST123, it is determined whether or not the original image size (page size) of the divided print setting determination page number Na is larger than the size of the paper to be printed (print paper size). In the case of no (N), the process moves to ST124, and in the case of yes (Y), the process moves to ST125.
[0111]
In ST124, the following processes (1) and (2) are executed.
(1) Specifying that the entire original image of the divided print setting determination page number Na is allocated to the print paper and printed.
(2) Add 1 to the actual page number Nb. That is, Nb = Nb + 1.
Then, the process proceeds to ST127.
In ST125, since the original image size is larger than the print paper size, the original image of the divided print setting determination page is divided based on the specification of the print parameters (designation of division print, rotation direction, binding position) included in the received print data. A print image data division setting process (see a subroutine of FIG. 15 described later) for setting each print parameter at the time of printing is performed, and the process proceeds to ST126.
In ST126, the following processes (1) and (2) are executed.
(1) The print parameters set in ST125 are assigned to each print sheet on which the divided image obtained by dividing the original image is printed. At this time, division position information based on the division printing order and reference direction information based on the rotation direction are assigned to each printing sheet.
(2) The number of divided print pages (the number of divisions) is added to the number of actual pages Nb.
Then, the process proceeds to ST127.
[0112]
In ST127, 1 is added to the number Na of divided print setting determination pages. That is, Na = Na + 1. Then, the process proceeds to ST128.
In ST128, it is determined whether or not the divided print setting determination page number Na is larger than the total page number Nt of the original image. If yes (Y), the operation moves on to ST129, and if no (N), the operation returns to ST122.
In ST129, in the printing paper bundle bound at the binding position, when the printing paper bundle is opened, the page adjustment processing for adjusting the pages so that the two divided images of the opened pages become continuous images (subroutine of FIG. 19 described later) Reference), and proceeds to st130.
In ST130, divided print image data (bitmap data) for printing is created based on the settings for each print sheet and the divided image (or the original image if not divided) to be printed on each print sheet, and sends it to the printer. Send. Then, the divided print processing ends, and the process returns to ST107 of the main flowchart of the printer server PS in FIG.
[0113]
Therefore, if the original image size is smaller than the print paper size by the divided print processing of ST121 to ST130, the entire original image can be printed on the print paper. In ST124, the entire original image is printed on the print paper without being divided. To do so. On the other hand, if the original image size is larger than the print paper size, according to the specification of the print parameters of the received print data, set the print parameters such as the number of divisions for the corresponding page, the direction of automatic rotation, the print order, the image position, Assignment is performed for each divided image (ST125, ST126). When page adjustment is designated, the page order is adjusted (ST129), and image data to be printed on printing paper is created based on each setting, and transmitted to the printer (ST130).
[0114]
(Print image data division setting processing)
FIG. 15 is a flowchart of a subroutine of print image data division setting processing in the division print processing of FIG.
In ST141 of FIG. 15, designated values of print parameters (designation of double-sided printing, binding position, rotation direction, division order (division printing order), image position, etc.) included in the received print data are read. Then, the process proceeds to ST142.
In ST142, it is determined whether or not the designation of the rotation direction is set to "not" (there is no designation of automatic rotation). That is, it is determined whether or not printing without rotation is designated by a user input. In the case of no (N), the process moves to ST143, and in the case of yes (Y), the process moves to ST147.
[0115]
In ST143, the following processes (1) to (6) are executed.
(1) Calculate the non-rotating vertical sheet number Ma. That is, a value obtained by rounding the value of (vertical length of original image size) / (vertical length of print paper size) to an integer value is calculated, and the calculated integer value is set to Ma.
(2) Calculate the number Mb of non-rotating horizontal sheets. That is, a value obtained by rounding the value of (the horizontal length of the original image size) / (the horizontal length of the print paper size) to an integer value is calculated, and the calculated integer value is set to Mb.
(3) Calculate the number Mc of sheets in the vertical direction during rotation. That is, a value obtained by rounding up the value of (the horizontal length of the original image size) / (the vertical length of the print paper size) to an integer value is calculated, and the calculated integer value is set to Mc.
(4) Calculate the number Md of sheets Md in the horizontal direction during rotation. That is, a value obtained by rounding up the value of (vertical length of original image size) / (horizontal length of print paper size) to an integer value is calculated, and the calculated integer value is set to Md.
(5) Calculate the required number of sheets Mn for non-rotation. That is, a value calculated by (the number of non-rotating vertical paper sheets Ma) × (the number of non-rotating horizontal paper sheets Mb) is defined as Mn.
(6) Calculate the required number of sheets Mr during rotation. That is, a value calculated by (the number of vertical rotation direction sheets Mc) × (the number of horizontal rotation direction sheets Md) is defined as Mr.
Then, the process proceeds to ST144.
[0116]
In ST144, it is determined whether or not the value of the required number of sheets for rotation Mr is smaller than the value of the required number of sheets for non-rotation Mn. If yes (Y), the operation moves on to ST145, and if no (N), the operation moves on to ST147.
In ST145, a rotation direction setting process (see a subroutine in FIG. 16 described later), which is a process of determining (setting) a rotation direction when the original image is automatically rotated and printed, is executed, and the process proceeds to ST146.
In ST146, the user specifies to rotate the original image by 90 degrees in the rotation direction set in the rotation direction setting process in ST147, and the process proceeds to ST147.
In ST147, a division order setting process for setting a division printing order (division order), which is an order when the original image is divided and printed, based on the division printing order specified by the user (see a subroutine in FIG. 17 described later). ) Is performed, and the process moves to ST148.
In ST148, when the original image is printed, an image position setting process for setting the image position where the original image is arranged on the finished paper based on the image position specified by the user is executed. Then, the print image data division setting processing ends, and the flow returns to ST126 of the division print processing of FIG.
[0117]
Therefore, in the print image data division setting process in ST141 to ST148, it is specified that the image is to be automatically rotated and printed at the time of divisional printing, and when the original image is rotated, the number of print sheets used becomes smaller. (ST142 to ST144) and a rotation direction (print parameter) are set in ST145. At this time, though not shown, the smaller of the required number of sheets Mr and Mn is set as the number of divisions (the number of sheets of printing paper used), and the user designates “not to be automatically rotated”. In this case, the required number of sheets Mn for non-rotation is set to the division number. Then, in ST147, the divided printing order (print parameter) is set, and in ST148, the image position (print parameter) is set. Therefore, each print parameter for the page is set by the print image data division setting process.
[0118]
(Rotation direction setting processing)
FIG. 16 is a flowchart of a subroutine of the rotation direction setting process in the print image data division setting process of FIG.
In ST151 of FIG. 16, it is determined whether or not the rotation direction included in the received print data is designated as "automatic". If no (N), the process moves to ST152, and if yes (Y), the process moves to ST153.
In ST152, the rotation direction of the original image is set to the rotation direction specified by the user (“left rotation” or “right rotation”). Then, the rotation direction setting process ends, and the process returns to ST145 of the print image data division setting process of FIG.
[0119]
In ST153, it is determined whether or not the binding position is designated as “right binding”. If yes (Y), the operation moves on to ST154, and if no (N), the operation moves on to ST155.
In ST154, the rotation direction of the original image is set to “right direction” (right rotation). Then, the rotation direction setting process ends, and the process returns to ST145 of the print image data division setting process of FIG.
In ST155, the rotation direction of the original image is set to “left direction” (left rotation). Then, the rotation direction setting process ends, and the process returns to ST145 of the print image data division setting process of FIG.
[0120]
Therefore, in the rotation direction setting process of ST151 to ST155, when the rotation direction is “automatic”, the rotation direction of the original image is set based on the binding position specification. In, the rotation direction of the original image is set to the specified rotation direction. In the present embodiment, “right rotation” is set only when the binding position is right binding, and left rotation is set at other binding positions. However, these combinations can be arbitrarily changed. It is also possible to set the rotation direction while referring to a table indicating the relationship between the binding position and the rotation direction. Furthermore, it is also possible to perform processing to set the rotation direction based on print parameters other than the binding position. Regardless of the print parameters, for example, processing to set to “left rotation” unless specified by the user Is also possible.
[0121]
(Division order setting processing)
FIG. 17 is a flowchart of a subroutine of the division order setting process in the print image data division setting process of FIG.
In ST161 of FIG. 17, it is determined whether or not the division order (divided print order) included in the received print data is designated as "automatic". In the case of no (N), the process moves to ST162, and in the case of yes (Y), the process moves to ST163.
In ST162, the division order of the original image is set to the division order specified by the user (such as “top left horizontal priority”). Then, the division order setting process ends, and the process returns to ST147 of the print image data division setting process of FIG.
[0122]
In ST163, it is determined whether or not the binding position is designated as “left binding”. If yes (Y), the operation moves on to ST164, and if no (N), the operation moves on to ST165.
In ST164, the division order of the original image is set to “top left horizontal priority”. Then, the division order setting process ends, and the process returns to ST147 of the print image data division setting process of FIG.
In ST165, it is determined whether or not the binding position is designated as “right binding”. If yes (Y), the operation moves on to ST166, and if no (N), the operation moves on to ST167.
In ST166, the division order of the original image is set to “upper right side priority”. Then, the division order setting process ends, and the process returns to ST147 of the print image data division setting process of FIG.
[0123]
In ST167, it is determined whether or not the binding position is designated as “upper binding”. If yes (Y), the operation moves on to ST168, and if no (N), the operation moves on to ST171.
In ST168, it is determined whether or not the rotation direction is designated as “rightward” (rightward rotation). If yes (Y), the operation moves on to ST169, and if no (N), the operation moves on to ST170.
In ST169, the division order of the original image is set to “upper right vertical priority”. Then, the division order setting process ends, and the process returns to ST147 of the print image data division setting process of FIG.
In ST170, the division order of the original image is set to “upper left vertical priority”. Then, the division order setting process ends, and the process returns to ST147 of the print image data division setting process of FIG.
[0124]
In ST171, it is determined whether or not the rotation direction has been designated as “rightward” (rightward rotation). If yes (Y), the operation moves on to ST172, and if no (N), the operation moves on to ST173.
In ST172, the division order of the original image is set to “lower right vertical priority”. Then, the division order setting process ends, and the process returns to ST147 of the print image data division setting process of FIG.
In ST173, the division order of the original image is set to “lower left vertical priority”. Then, the division order setting process ends, and the process returns to ST147 of the print image data division setting process of FIG.
[0125]
Therefore, if the designation of the division order is "automatic" in the division order setting processing of ST161 to ST173, the division order is automatically set according to the designation of the binding position and the rotation direction. The automatically set division order is set such that a continuous image is easily formed on a double-page spread when a print sheet bundle on which print sheets are bound is opened. For example, in the case of left binding, the spread image is opened in the left and right direction, so divisional printing is started from the upper left of the original image, and an image adjacent in the horizontal direction (left and right direction) is preferentially printed (ST164). In the case of right rotation, it is set to start divided printing from the upper right and to preferentially print images adjacent in the vertical direction (vertical direction) (ST169).
[0126]
The setting of the division order (division printing order) may be performed so as to be set only in relation to the binding position regardless of the rotation direction, or may be set based on other print parameters. It is possible. Further, in the present embodiment, in the processing of FIG. 17, the processing is performed so that any one of the six types among the eight types of division orders shown in the division order selection screen of FIG. 10 is set. By increasing (ST163, ST165, etc.), it is possible to perform processing so that all eight types are set, or by reducing the discrimination conditions, it is also possible to perform processing so that six types or less are set. Further, it is also possible to prepare a table indicating the relationship between the binding position, the rotation direction and the division order, and to set the division order while referring to the table.
[0127]
(Image position setting processing)
FIG. 18 is a flowchart of a subroutine of an image position setting process in the print image data division setting process of FIG.
In ST181 of FIG. 18, it is determined whether or not the image position included in the received print data is designated as "automatic". In the case of no (N), the process moves to ST182, and in the case of yes (Y), the process moves to ST183.
In ST182, the image position of the original image is set to the image position designated by the user (such as "upper left"). Then, the image position setting process ends, and the process returns to ST148 of the print image data division setting process of FIG.
[0128]
In ST183, it is determined whether or not the binding position is designated as “left binding”. If yes (Y), the operation moves on to ST184, and if no (N), the operation moves on to ST185.
In ST184, the image position of the original image is set to “upper left”. Then, the image position setting process ends, and the process returns to ST148 of the print image data division setting process of FIG.
In ST185, it is determined whether or not the binding position is designated as “upper binding”. If yes (Y), the operation moves on to ST186, and if no (N), the operation moves on to ST188.
In ST186, it is determined whether or not the rotation direction has been designated as “rightward” (rightward rotation). If yes (Y), the process moves to ST187, and if no (N), the process moves to ST184.
In ST187, the image position of the original image is set to “upper right”. Then, the image position setting process ends, and the process returns to ST148 of the print image data division setting process of FIG.
[0129]
In ST188, it is determined whether or not the binding position is designated as “right binding”. If yes (Y), the process proceeds to ST187, and if no (N), the process proceeds to ST189.
In ST189, it is determined whether or not the rotation direction has been designated as “rightward” (rightward rotation). If yes (Y), the operation moves on to ST190, and if no (N), the operation moves on to ST191.
In ST190, the image position of the original image is set to “lower right”. Then, the image position setting process ends, and the process returns to ST148 of the print image data division setting process of FIG.
In ST191, the image position of the original image is set to “lower left”. Then, the image position setting process ends, and the process returns to ST148 of the print image data division setting process of FIG.
[0130]
Therefore, when the image position designation is set to “automatic” by the image position division order setting processing in ST181 to ST191, the image position is automatically set according to the designation of the binding position and the rotation direction. . The automatically set image position is set such that the margin area formed on the printing paper in the earlier printing order is reduced (or eliminated). For example, in the case of left binding, printing is performed from the upper left in ST164 of the division order setting process in FIG. 17, so that the image position is set to “upper left” (ST184). Since printing is performed from the lower right in ST172, the image position is set to “lower right” (ST189).
[0131]
The image position can be set so as to be set only in relation to the binding position regardless of the rotation direction, or can be set based on printing parameters other than the binding position and the rotation direction. It is possible. Further, in the present embodiment, in the processing of FIG. 18, the processing is performed so that any one of the four image positions is set among the nine image positions shown in the image position selection screen of FIG. By increasing (ST183, ST185, etc.), it is possible to perform processing so that all nine types are set, or by reducing the discrimination conditions, it is also possible to perform processing so that four types or less are set. Furthermore, it is also possible to prepare a table indicating the relationship between the binding position, the rotation direction, and the image position, and to set the image position while referring to the table.
[0132]
(Page order adjustment processing)
FIG. 19 is a flowchart of a subroutine of page adjustment processing in the division printing processing of FIG.
In ST201 of FIG. 19, it is determined whether or not execution of duplex printing is specified in the print parameters included in the received print data. If yes (Y), the process moves to ST202, and if no (N), the page adjustment process (page order adjustment process) ends, and the process returns to ST129 of the divided printing process in FIG.
In ST202, it is determined whether or not execution of page adjustment (adjustment of page order) is specified. If yes (Y), the process moves to ST203, and if no (N), no (N), the page adjustment process ends, and the process returns to ST129 of the divided printing process in FIG.
[0133]
In ST203, 1 is set to the page order adjustment determination page number Nc corresponding to the actual page number Nb, which is the number of print sheets actually printed. Then, the process proceeds to ST204.
In ST204, it is determined whether or not the page order adjustment determination page number Nc is an “odd number”. That is, it is determined whether the page adjustment determination page is printed on the front side during double-sided printing. If no (N), the operation moves on to ST205, and if yes (Y), the operation moves on to ST207.
In ST205, 1 is added to the page adjustment determination page number Nc. That is, Nc = Nc + 1. Then, the process proceeds to ST206.
In ST206, it is determined whether or not the page adjustment determination page number Nc is larger than the actual page number Nb. That is, it is determined whether or not there is a remaining page. If no (N), the process returns to ST204; if yes (Y), the page adjustment process ends, and the process returns to ST129 of the divided printing process in FIG.
[0134]
In ST207, it is determined whether or not division position information (division display) is allocated to the page adjustment determination page number Nc. If no (N), the process moves to ST205, and if yes (Y), the process moves to ST208.
In ST208, it is determined whether or not the continuous image determination page number Nd (= Nc + 1) which is the next page to the page adjustment determination page number Nc is equal to or less than the actual page number Nb. That is, it is determined whether or not a continuous image determination page exists. If no (N), the process moves to ST205, and if yes (Y), the process moves to ST209.
In ST209, it is determined whether or not division position information (division display) has been allocated to the image having the continuous image determination page number Nd. If no (N), the operation moves on to ST205, and if yes (Y), the operation moves on to ST210.
[0135]
In ST210, it is determined whether "upper binding" or "lower binding" is set at the binding position. If yes (Y), the operation moves on to ST211; if no (N), the operation moves on to ST212.
When “upper binding” or “lower binding” is specified, 1 is added to the vertical division position information display value of the page adjustment determination page (the page of the page adjustment determination page number Nc) in ST211 (in the case of upper binding). Alternatively, it is determined whether or not the value obtained by subtraction (in the case of lower binding) is the same as the vertical division position information display value of the continuous image determination page (the page having the number Nd of continuous image determination pages). If no (N), the process moves to ST205, and if yes (Y), the process moves to ST213.
On the other hand, when “left binding” or “right binding” is specified, in ST212, 1 is added to the horizontal division position information display value of the page adjustment determination page (the page of the page adjustment determination page number Nc) (left binding). It is determined whether or not the value obtained by subtraction (in the case of right binding) or the value obtained by subtraction (in the case of right binding) is equal to the horizontal division position information display value of the continuous image determination page (the page having the number Nd of continuous image determination pages). If no (N), the process moves to ST205, and if yes (Y), the process moves to ST213.
[0136]
In ST213, the following processes (1) to (3) are executed.
(1) The values of the actual page number Nb of all pages after the page adjustment determination page are all set to Nb + 1. That is, all pages are shifted backward by one page.
(2) Set the print image data of the page adjustment determination page to blank. That is, the page adjustment is performed by inserting a blank sheet into the page adjustment determination page and shifting the page backward by one page.
(3) Since it is determined that the page adjustment determination page and the continuous image determination page are continuous images, and the number of pages is shifted by one page afterward so as to be a continuous image, it is determined whether or not the next page adjustment is performed. Must be set on the next page of the continuous image determination page. By the processing of (1) and (2) in ST213, the page adjustment determination page number Nc becomes blank, and the image of the page adjustment determination page number Nc before shifting the page number is printed on the Nc + 1 page. Is printed on pages of Nd + 1 (= Nc + 2). Therefore, the next page adjustment determination page is the page of Nc + 3, and 3 is added to the value of the page adjustment determination page number Nc.
Then, the process proceeds to ST206.
[0137]
Therefore, by the page adjustment processing in ST201 to ST213, double-sided printing is designated, and an image printed on the front side (page adjustment determination page) and an image printed on the back side (continuous image determination page) become continuous images. Whether it is or not is determined based on the division position information display value. That is, in the case of the upper binding or the lower binding, if the vertical division position information display values are continuous, a continuous image is formed by arranging the bound printing paper on the upper page and the lower page of the opened page. Can be determined. In the case of left binding or right binding, if the horizontal division position information display values are continuous, a continuous image is formed by placing the bound printing paper on the left and right pages of the opened page. Can be determined. If it is determined that the combination of pages forms the continuous image, a blank sheet is inserted on the front side of the printing paper, and the pages are shifted one page at a time, so that the front side image is on the back side and the back side is on the back side. The image is printed on the next print sheet. Therefore, when binding is performed at the binding position, a continuous image is formed at the time of double-page spread. In the present embodiment, whether or not a continuous image is formed is determined based on the division position information display value. However, determination may be made based on other parameters. For example, when setting the division printing order, it is also possible to add information of a printing paper on which a continuous image is formed to each printing paper, and make a determination based on this information.
[0138]
(Operation of Embodiment 1)
In the print processing system S of the first embodiment having the above-described configuration, when print parameters (designation of double-sided printing, division printing order, and the like) are specified on the client personal computer PC, transmission print data including the printing parameters is transmitted. It is transmitted to the printer server PS. The printer server PS that has received the transmission print data stores the transmission print data as received print data, and determines whether to divide and print each page of the original image data of the received print data based on the print parameters. Is determined. Then, the rotation direction, the division order (division printing order), and the image position are set for the page to be divided and printed based on the print parameters. Then, for each divided image data, the page is adjusted based on the print parameters so that a continuous image is obtained when the bound print sheet bundle is opened. Then, based on the settings, print image data for the designated print paper size is created, transmitted to the printer Pr, and printed.
[0139]
Even when the printer server PS receives transmission print data that does not include print parameters transmitted from a host computer that cannot set split printing, such as the workstation WS or the database server, it specifies job holding at the time of transmission. Thus, print parameters can be set in the printer server PS, and print data (received print data) including the print parameters can be created.
[0140]
Accordingly, the printer server PS (image processing device) that has received the transmission print data including the divided print designation data created by the client personal computer PC (image processing device) of the print processing system S is used for printing the original image. If the original image size is larger than the print paper size, which is the size of the print paper, and if it is specified that the original image be automatically divided into a plurality of print papers of the print paper size and printed. When the original image size is larger than the print paper size, all the original images of the original image size can be divided and printed on a plurality of print papers without being reduced. As a result, in the original image data of a plurality of pages, when the original image size is different for each page, or when, for example, all the A3 original images are to be printed on A4 printing paper, a part of the image is printed, It is possible to prevent printing at a reduced size.
[0141]
In addition, if the number of print sheets used by the division printing on the printing paper becomes smaller by rotating the original image by 90 degrees by the processing in the printer server PS, the printer (PS) is rotated in the original image by 90 degrees. Printing device) It is possible to print on Pr or the like, and if the original image is not rotated by 90 degrees and divided printing on the printing paper reduces the number of used printing papers, printing without rotating the original image is performed. Can be done. As a result, the number of print sheets used can be reduced, paper waste can be eliminated, and printing costs can be reduced. Further, since the number of used sheets is set to be small, the margin area where no image is printed can be reduced as compared with the case where the number of used sheets is large.
[0142]
Also, when the division position information is designated, the user can grasp the positional relationship between the division image printing papers by looking at the printed printing paper based on the division position information printed on the division image printing paper. In addition to this, the divided image printing paper can be easily arranged side by side so that the original image is formed based on the positional relationship. Further, when the layout image information is printed, the position of the divided image printing paper with respect to the whole can be easily grasped. Furthermore, when the reference direction information is designated to be attached, the top, bottom, left, and right positional relationship between the divided image printing sheets can be easily grasped by the reference direction information printed on the divided image printing sheets. Further, when the original image is rotated by 90 degrees, it is also possible to grasp that the image is automatically rotated and printed.
[0143]
Further, when the execution of the page order is designated, when the continuous image determining means determines that the image is a continuous image, blank pages are allocated to the previous page, and the page order is shifted by one page. When a print sheet bundle on which double-sided print sheets are bound is opened, a continuous image is adjusted.
Also, as for the automatic rotation direction, the division order, and the image position, the initial designated value is set to “automatic”, and the automatic rotation direction, the division order, and the image position are automatically set based on the specification of the binding position. Even if the user does not make complicated settings, the automatic rotation direction, the division order, and the image position that are considered optimal for the binding position are automatically set. Therefore, even if the user does not specify all the print parameters, the print parameters are automatically set, so that the user's work can be saved and the work efficiency can be improved.
[0144]
(Specific example 1 of Embodiment 1)
FIG. 20 is an explanatory diagram of the original image data of the first specific example of the first embodiment. FIG. 20A is an explanatory diagram of the original image of the first page, FIG. 20B is an explanatory diagram of the original image of the second page, and FIG. Is an explanatory diagram of an original image of the third page.
In FIG. 20, the first page is A4 portrait, the second page is A3 landscape, and the third page is A3 portrait original image data. , Double-sided printing “none (no)”, binding position “left”, rotation direction “auto”, division order (division printing order) “auto”, image position “auto”, division display (division position information) “attach”, The printing is executed by specifying the rotation display (reference direction information) “attach” and the page order adjustment “none (not performed)”.
[0145]
21 is an explanatory diagram of a divided image obtained by dividing the original image data of the second page in FIG. 20, FIG. 21A is an explanatory diagram of the left divided image, and FIG. 21B is an explanatory diagram of the right divided image.
In the printer server PS which has received the original image data of the total of three pages and the specified print parameters, the first page of the original image has the same size as the print paper size and the original image paper size. In, the whole is allocated without being divided. In FIG. 21, the second page of the original image has a larger original image size (A3 landscape) than the print paper size (A4 portrait), and the smaller the non-rotated one, the smaller the number of sheets used. It is set to two. Then, since the division order is automatic, “upper left horizontal priority” is automatically set, and the left divided image is printed first. The actual number of pages is such that the left divided image is two pages and the right image is three pages (allocated).
[0146]
22 is an explanatory diagram of a divided image obtained by dividing the original image data of the third page of FIG. 20 without rotating, FIG. 22A is an explanatory diagram of an upper left divided image, and FIG. 22B is an explanatory diagram of an upper right divided image. FIG. 22C is an explanatory diagram of a lower left divided image, and FIG. 22D is an explanatory diagram of a lower right divided image.
FIG. 23 is an explanatory diagram of a divided image obtained by rotating the original image data of the third page in FIG. 20 and then dividing the image. FIG. 23A is an explanatory diagram of the left divided image, and FIG. 23B is an explanatory diagram of the right divided image. is there.
On the third page of the original image shown in FIG. 20, the original image size (A3 length) is larger than the printing paper size (A4 length), so the original image is divided. At this time, when divided without rotation, four sheets of printing paper are required as shown in FIG. 22 (see Mn in ST143 of FIG. 15). When divided after rotation, as shown in FIG. Printing can be performed on one sheet (see Mr in ST142 in FIG. 15). In the first specific example of the first embodiment, since the automatic rotation direction “automatic” is designated, the divided images are formed after rotation as shown in FIG. 23 (see ST145 and ST146 in FIG. 15). At this time, since the binding position is “left side”, the direction of automatic rotation is automatically set to the left direction (see ST155 in FIG. 16). Then, since the division order is automatic, “upper left horizontal priority” is automatically set, and the left divided image is printed first. Therefore, the number of actual pages is four for the divided image on the left and five for the image on the right.
[0147]
FIG. 24 is an explanatory diagram of a divided image printing sheet obtained by dividing and printing the original image data of FIG. 20, FIG. 24A is an explanatory diagram of the first page of the divided image printing paper, and FIG. FIG. 24C is an explanatory diagram of the image printing paper, and FIG. 24C is an explanatory diagram of the divided image printing paper of the third page.
FIG. 25 is an explanatory diagram of the divided image printing paper obtained by dividing and printing the original image data of FIG. 20. FIG. 25A is an explanatory diagram of the fourth page of the divided image printing paper, and FIG. FIG. 3 is an explanatory diagram of an image printing sheet.
Therefore, the divided images shown in FIGS. 24 and 25 are printed on the basis of the data in which the automatic rotation and the divided printing order are set by the respective settings. Here, since the division position information and the reference direction information are specified as “attach”, the number 1 of the original image is not printed on the divided image printing paper of the first real page number in FIG. 24A that is not divided. It is printed at the center of the lower end of the paper.
[0148]
As shown in FIG. 24B and FIG. 24C, the division position information is (the number of pages of the original image) on the divided image printing paper with the actual number of pages 3 and 4 printed by dividing the second page of the original image. It is printed in the style of / (horizontal division position display value)-(vertical division position display value), and an arrow is printed adjacent to the right of the division position information as reference direction information. Therefore, according to the division position information, the actual number of pages 2 and 3 are obtained by dividing the second page of the original image, and the second and third pages are images which are horizontally adjacent to each other. It is possible to grasp the upper direction of the original image from the reference direction information.
In FIG. 25, the divided image printing paper with the actual number of pages 4 and 5 printed by dividing and printing after rotating the third page of the original image has divided position information as shown in FIGS. 25A and 25B, The arrow of the reference direction information is printed. At this time, as the arrow of the reference direction information, an arrow rotated by 90 degrees to the left, which is the automatic rotation direction of the original image, is printed. The upward direction of the image data can be grasped. In the first embodiment, the division position information and the reference direction information are printed at the center of the lower end portion of the front surface of the printing paper. However, these positions can be arbitrarily changed. It is also possible to configure so that the print is performed at the same time. If there are margins on four sides of the printing paper, printing may be performed in the margins. Further, the printing style of the division position information is not limited to FIGS. 24 and 25, and printing can be performed in an arbitrary style.
[0149]
FIG. 26 is an explanatory diagram of the divided image printing paper when the three pages of the original image data of FIG. 20 are divided and printed without rotating, and FIG. 26A is an explanatory diagram of the fourth image of the divided image printing paper. FIG. 26B is an explanatory diagram of the fifth page of the divided image printing paper, FIG. 26C is an explanatory diagram of the sixth page of the divided image printing paper, and FIG. 26D is an explanatory diagram of the seventh page of the divided image printing paper.
In the case of printing the original image data of the specific example 1 of the first embodiment, if the automatic rotation is not performed, “1” and “2” pages of the original image are printed as in FIG. As shown in FIG. 26, the three pages of the original image are printed in the “upper left horizontal priority” division printing order. In FIG. 26, since the binding position is designated as “left” and the image position is designated as “automatic”, the image position is automatically set to “upper left” (see ST184 in FIG. 18).
[0150]
(Specific example 2 of Embodiment 1)
FIG. 27 is an explanatory diagram of the original image data of the specific example 2 of the first embodiment. FIG. 27A is an explanatory diagram of the original image of the first page, FIG. 27B is an explanatory diagram of the original image of the second page, and FIG. Is an explanatory diagram of an original image of the third page.
In FIG. 27, the first page is B5 width, the second page is B4 length, and the third page is A3 length original image data, and the printing paper size is B5 width, and the automatic division printing is performed as a printing parameter as “execution”. , Double-sided printing “Yes”, binding position “upper”, rotation direction “auto”, division order (division printing order) “auto”, image position “auto”, division display (division position information) “attach”, rotation display ( Reference direction information) Printing is executed by designating "attach" and page order adjustment "none (not performed)".
[0151]
FIG. 28 is an explanatory diagram of a divided image obtained by dividing the original image data of the second page of FIG. 27. FIG. 28A is an explanatory diagram of a divided image when no automatic rotation is performed, and FIG. It is explanatory drawing of an image.
In the printer server PS which has received the original image data of the total of three pages and the specified print parameters, the first page of the original image is allocated without being divided because the print paper size and the original image paper size are the same. (See ST124 of the divided printing process in FIG. 14). In FIG. 27, the original image is divided on the second page of the original image because the original image size (B4 length) is larger than the print paper size (B5 width). At this time, when divided without rotation, printing can be performed on two sheets of printing paper as shown in FIG. 28A, but when divided after rotation, four sheets of printing paper are required as shown in FIG. 28B. In the specific example 2 of the first embodiment, since the automatic rotation direction “automatic” is specified, the divided image is formed without rotating the two pages of the original image as shown in FIG. 28A. At this time, since the binding position is specified as “upper” and the division order is automatically specified, “upper left vertical priority” is automatically set (see ST170 in FIG. 17), and the left divided image is printed first. . Therefore, the divided image having the actual page number of the upper side is two pages, and the image of the lower side is three pages.
[0152]
FIG. 29 is an explanatory diagram of a divided image obtained by dividing the original image data of the third page in FIG. 27. FIG. 29A is an explanatory diagram of a divided image divided without rotation, and FIG. 29B is a divided image divided after rotation. FIG.
On the third page of the original image shown in FIG. 27, the original image size (A4 portrait) is larger than the print paper size (B5 landscape), so the original image is divided. At this time, in the case of division without rotation, six sheets of printing paper are required as shown in FIG. 29A, but in the case of division after rotation, printing can be performed with four sheets of printing paper as shown in FIG. 29B (ST143 of FIG. 15). , ST144), the rotation can reduce the number of sheets used, and the margin area formed in the lower right portion of the finished sheet can be narrowed. In the specific example 2 of the first embodiment, since the binding position is specified as “upper” and the automatic rotation direction is “automatic”, after automatic rotation to the left as shown in FIG. 29B (see ST155 in FIG. 16). , A divided image is formed. Since the binding position is designated as "upper" and the division order is designated as "automatic", "upper left vertical priority" is automatically set (see ST170 in FIG. 17), and the upper left, lower left, upper right and lower right are divided in this order. The image is printed first. In accordance with this, the actual page number of 4 to 7 pages is allocated. Further, since the binding position is designated as "upper" and the image position is designated as "automatic", the image position "upper left" is automatically set (see ST184 in FIG. 18), the image is printed on the upper left, and the margin is located on the lower right. An area is formed (see FIG. 29B).
[0153]
FIG. 30 is an explanatory diagram of the divided image printing paper obtained by dividing and printing the original image data of FIG. 27. FIG. 27A is an explanatory diagram of the divided image printing paper of the first page, and FIG. FIG. 27C is an explanatory diagram of the image printing paper, and FIG. 27C is an explanatory diagram of the divided image printing paper of the third page.
FIG. 31 is an explanatory diagram of the divided image printing paper obtained by dividing and printing the original image data of FIG. 27. FIG. 31A is an explanatory diagram of the fourth page of the divided image printing paper, and FIG. FIG. 31C is an explanatory diagram of the divided image printing paper on the sixth page, and FIG. 31D is an explanatory diagram of the divided image printing paper on the seventh page.
Therefore, the divided images shown in FIGS. 30 and 31 are printed by double-sided printing based on the data in which the automatic rotation and the divided printing order are set by the respective settings. Each print sheet has the same division position information and reference direction information as those in the specific example 1 of the first embodiment. In addition, each divided image print sheet of three pages of the original image divided into four has layout image position information. Is printed. That is, on the divided image printing sheet of FIG. 31A where the division position is the upper left, layout image position information in which the upper left is filled is printed at the upper left corner of the sheet to indicate that the sheet of FIG. 31A is arranged at the upper left of the whole. ing. The layout image position information corresponding to each arrangement position is also printed on each of the divided image printing papers of FIGS. 31B to 31D. In the first embodiment, the layout image position information is printed in the case of four divisions. However, the layout image position information may be printed in the case of two divisions. The print position of the layout image position information and the style of the layout image can be arbitrarily changed.
[0154]
(Specific example 3 of Embodiment 1)
FIG. 32 is an explanatory diagram of the original image data of the third specific example of the first embodiment. FIG. 32A is an explanatory diagram of the original image of the first page, FIG. 32B is an explanatory diagram of the original image of the second page, and FIG. Is an explanatory diagram of an original image of the third page.
In FIG. 32, the first page is A3 portrait, the second page is A4 portrait, and the third page is non-standard-size (deformed) original image data, and the printing paper size is A4 portrait paper. "Execute", double-sided printing "Yes", binding position "right", rotation direction "Auto", division order (division printing order) "Auto", image position "Auto", division display (division position information) "Attach", The printing is executed by specifying the rotation display (reference direction information) “attach” and the page order adjustment “none (not performed)”.
[0155]
FIG. 33 is an explanatory diagram of a divided image obtained by dividing the original image data of the first page of FIG. 32. FIG. 33A is an explanatory diagram of a divided image when automatic rotation is not performed, and FIG. 33B is a divided image when automatic rotation is performed. It is explanatory drawing of an image.
In FIG. 33, in the printer server PS that has received the original image data of a total of three pages and the designated print parameters, the first page of the original image has the original image size (A3 portrait) larger than the printing paper size (A4 portrait). Because it is large, the original image is split. At this time, if the sheet is divided without rotating, four sheets of printing paper are required as shown in FIG. 33A, but if the sheet is divided after rotating, printing can be performed with two sheets of printing paper as shown in FIG. 33B. Therefore, in the specific example 3 of the first embodiment, the binding position is designated as “right” and the automatic rotation direction is designated as “automatic”, so that the one page of the original image is changed to FIG. After rotating to the right as shown, a divided image is formed. At this time, since the binding position is specified as “right” and the division order is automatically specified, “upper right side priority” is automatically set (see ST166 in FIG. 17), and the right divided image is printed first. Therefore, in FIG. 33B, the divided image whose actual page number is on the right is allocated to one page, and the image on the left is allocated to two pages.
Since the print paper size (A4 portrait) and the original image paper size (A4 portrait) of the two pages of the original image are the same size, the entire page is allocated without being divided (see ST124 of the divided print processing in FIG. 14). The actual number of pages is three.
[0156]
FIG. 34 is an explanatory diagram of a divided image obtained by dividing the original image data of the third page of FIG. 32. FIG. 34A is an explanatory diagram of a divided image divided without rotation, and FIG. 34B is a divided image divided after rotation. FIG.
On the third page of the original image shown in FIG. 32, the original image is divided because the original image size (A4 length) is larger than the print paper size (non-standard size). At this time, in the case of division without rotation, printing can be performed on two sheets of paper as shown in FIG. 34A, but in the case of division after rotation, three sheets of printing paper are required as shown in FIG. 34B (see FIG. 34B). 15 ST143 and ST144). Then, the non-rotating side can reduce the margin area formed in the lower left portion of the finished paper as shown in FIG. 34A. Therefore, the three pages of the original image are divided without rotation. Since the binding position is specified as “right” and the division order is “automatic”, “upper right side priority” is automatically set (see ST166 in FIG. 17), and the upper divided image is printed first in FIG. 34A. Is done. According to this, the actual page number of 4 or 5 pages is allocated. Since the binding position is designated as "upper" and the image position is designated as "automatic", the image position "upper right" is automatically set (see ST187 in FIG. 18), the image is printed on the upper right, and a blank area is formed on the lower left. (See FIG. 34B).
[0157]
FIG. 35 is an explanatory diagram of a divided image printing sheet obtained by dividing and printing the original image data of FIG. 32. FIG. 35A is an explanatory diagram of the first page of the divided image printing paper, and FIG. FIG. 35C is an explanatory diagram of the image printing paper, and FIG. 35C is an explanatory diagram of the divided image printing paper of the third page.
FIG. 36 is an explanatory diagram of a divided image printing sheet obtained by dividing and printing the original image data of FIG. 32. FIG. 36A is an explanatory diagram of a fourth page divided image printing sheet, and FIG. FIG. 3 is an explanatory diagram of an image printing sheet.
Therefore, the divided images shown in FIG. 35 and FIG. 36 are printed based on the data in which the automatic rotation and the divided printing order are set by the respective settings.
[0158]
FIG. 37 is an explanatory diagram of a divided image printing sheet in which the original image data of FIG. 32 is divided and printed by designating the presence of page adjustment. FIG. 37A is an explanatory diagram of the first page of the divided image printing sheet. 37B is an explanatory diagram of the second page of the divided image printing paper, and FIG. 37C is an explanatory diagram of the third page of the divided image printing paper.
FIG. 38 is an explanatory diagram of a divided image print sheet obtained by dividing and printing the original image data of FIG. 32 by designating the presence of page adjustment, and FIG. 38A is an explanatory diagram of the fourth page of the divided image print sheet. 38B is an explanatory diagram of the fifth page of the divided image printing paper, and FIG. 38C is an explanatory diagram of the sixth page of the divided image printing paper.
When the original image shown in FIG. 32 is printed with the page adjustment “none (not performed)”, the images shown in FIGS. 35 and 36 are printed. At this time, since double-sided printing is designated, the image of FIG. 35B is printed on the page having the actual number of pages, that is, the back surface of the printing paper on which the image of FIG. 35A is printed. When printed in this manner, when the binding is performed on the right side, when the printed sheet bundle after the binding is opened, the images having the actual number of pages 1 and 2 are arranged on the front and back sides, so that a continuous image is not formed. .
[0159]
On the other hand, when the original image shown in FIG. 32 is printed by designating “Yes (Perform)” for page adjustment, it is printed as shown in FIGS. 37 and 38. That is, in the pages of FIGS. 35A and 35B, the horizontal division position display value (1) of the second page is smaller than the horizontal division position information display value (2) of the first page by one, and the right binding is performed. , A blank page is inserted (see ST212 and ST213 in FIG. 19), and the actual number of pages shifts by one. On the other hand, in the divided print image of three pages of the original image, as shown in FIGS. 38B and 38C, the vertical division position display value (1) in FIG. 38B is the vertical division position display value (2) in FIG. 38C. , Right page binding, no page adjustment is performed.
As a result of the page adjustment processing, page 2 (FIG. 37B) is printed on the back of blank page 1 (FIG. 37A), and page 4 (FIG. 38A) is printed on the back of page 3 (FIG. 37C). When the divided image printing paper is bound on the right side, pages 2 and 3 become continuous images at the time of double-page spread.
[0160]
(Example of change)
As described above, the embodiments of the present invention have been described in detail. However, the present invention is not limited to the above embodiments, and various modifications may be made within the scope of the present invention described in the appended claims. It is possible to do. Modification examples of the present invention are exemplified below.
(H01) In the above embodiment, it is also possible to adopt a configuration in which the division setting process is executed only by the printer server PS without executing the division setting process in the client personal computer PC. Conversely, it is also possible to configure so that the division setting process can be executed by the workstation WS or the database server DBS.
(H02) In the above embodiment, all processes such as the division print process of the printer server PS are configured to be executable by the client personal computer PC, and the printer server PS is omitted, and the printer is directly connected to the client personal computer PC. Such a configuration is also possible.
[0161]
(H03) In the above-described embodiment, the printer server PS is configured to execute the printing processes such as ST106 to ST110 in the printer server PS by the printer Pr and to execute the other processes of the printer server PS by the client personal computer PC. It is also possible to omit it.
(H04) In the above embodiment, the print parameter setting program P1 and the print data creation program P2 are computer-readable storage media other than the hard disk drive (such as a magneto-optical disk device, an optical disk device, a magnetic disk device, or a memory slot). Or a portable recording medium (flexible disk, magneto-optical disk, optical disk, magnetic disk, flash memory, etc.). For example, each program can be transferred to a client personal computer PC or the like via a communication means such as a network, and stored in a storage medium in the client personal computer PC to be executed.
[0162]
(H05) In the above-described embodiment, the binding positions are the four settings of “upper binding”, “lower binding”, “left binding”, and “right binding”. It is also possible to configure to set the two.
[0163]
【The invention's effect】
The present invention described above has the following effects (K01) to (K05).
(K01) When the original image size is larger than the printing paper size, all the original images of the original image size can be printed without being reduced.
(K02) The correspondence between the printed image and the original image can be grasped from the printed image paper on which the image is printed.
(K03) When the original image is printed in a rotated state, it is determined whether or not the number of used sheets is reduced. When the number of used sheets is reduced, the printing is performed by rotating, thereby reducing the number of used sheets and eliminating waste of paper. In addition, printing costs can be reduced.
(K04) By displaying each parameter on the print parameter setting screen and specifying each parameter, the user can specify the print parameters while checking.
(K05) By automatically setting the automatic rotation direction, the division printing order, and the image position, the user's labor can be saved and the user's burden can be reduced.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of a print processing system according to a first embodiment of the present invention.
FIG. 2 is a block diagram (functional block diagram) showing functions of a client personal computer of the print processing system shown in FIG. 1;
FIG. 3 is an explanatory diagram of a divided print setting screen displayed on a display of a client personal computer or a printer server by a function realizing means of a print parameter setting program of the present invention.
FIG. 4 is an explanatory diagram of a print start input screen of an application program incorporated in a client personal computer.
FIG. 5 is a block diagram (functional block diagram) showing functions of a printer server and a printer of the print processing system shown in FIG. 1;
FIG. 6 is an explanatory diagram of a main screen displayed on a display of a printer server by a function realizing unit of the print information processing unit of the present invention.
FIG. 7 is a flowchart of a print setting process in a client personal computer of the print processing system according to the first embodiment of the present invention.
FIG. 8 is a flowchart of a subroutine of division setting processing of the print setting processing of FIG. 7;
FIG. 9 is a flowchart of a subroutine of a division order changing process in the division setting process of FIG. 8;
FIG. 10 is an explanatory diagram of a division order selection screen.
FIG. 11 is a flowchart of a subroutine of an image position setting process in the image position setting process of FIG. 8;
FIG. 12 is an explanatory diagram of an image position selection screen.
FIG. 13 is a main flowchart of a process in the printer server of the print processing system according to the first embodiment of the present invention.
FIG. 14 is a flowchart of a subroutine of a division print process in the process of the printer server of FIG. 13;
FIG. 15 is a flowchart of a subroutine of print image data division setting processing in the division print processing of FIG. 14;
FIG. 16 is a flowchart of a subroutine of a rotation direction setting process in the print image data division setting process of FIG. 15;
FIG. 17 is a flowchart of a subroutine of a division order setting process in the print image data division setting process of FIG. 15;
FIG. 18 is a flowchart of a subroutine of an image position setting process in the print image data division setting process of FIG. 15;
FIG. 19 is a flowchart of a subroutine of page adjustment processing in the division printing processing of FIG. 14;
FIG. 20 is an explanatory diagram of the original image data of the specific example 1 of the first embodiment. FIG. 20A is an explanatory diagram of the original image of the first page, and FIG. 20B is an explanatory diagram of the original image of the second page. FIG. 20C is an explanatory diagram of the original image of the third page.
21 is an explanatory diagram of a divided image obtained by dividing the original image data of the second page of FIG. 20, FIG. 21A is an explanatory diagram of a left divided image, and FIG. 21B is an explanatory diagram of a right divided image. It is.
22 is an explanatory diagram of a divided image obtained by dividing the original image data of the third page of FIG. 20 without rotation, FIG. 22A is an explanatory diagram of an upper left divided image, and FIG. 22B is an upper right divided image. FIG. 22C is an explanatory diagram of a lower left divided image, and FIG. 22D is an explanatory diagram of a lower right divided image.
23 is an explanatory diagram of a divided image obtained by rotating the original image data of the third page of FIG. 20 and then dividing the image. FIG. 23A is an explanatory diagram of a left divided image, and FIG. 23B is a right divided image. FIG.
24 is an explanatory diagram of a divided image printing sheet obtained by dividing and printing the original image data of FIG. 20, FIG. 24A is an explanatory diagram of the first page of the divided image printing paper, and FIG. FIG. 24C is an explanatory diagram of the divided image printing paper of the third page, and FIG. 24C is an explanatory diagram of the divided image printing paper of the third page.
FIG. 25 is an explanatory diagram of a divided image printing sheet obtained by dividing and printing the original image data of FIG. 20, FIG. 25A is an explanatory diagram of the fourth page of the divided image printing paper, and FIG. FIG. 9 is an explanatory diagram of a divided image print sheet of a page.
FIG. 26 is an explanatory diagram of a divided image printing sheet when three pages of the original image data of FIG. 20 are divided and printed without rotating, and FIG. FIG. 26B is an explanatory diagram of the divided image printing paper on the fifth page, FIG. 26C is an explanatory diagram of the divided image printing paper on the sixth page, and FIG. 26D is an explanatory diagram of the divided image printing paper on the seventh page. is there.
FIG. 27 is an explanatory diagram of the original image data of the specific example 2 of the first embodiment. FIG. 27A is an explanatory diagram of the original image of the first page, and FIG. 27B is an explanatory diagram of the original image of the second page. FIG. 27C is an explanatory diagram of the original image of the third page.
28 is an explanatory diagram of a divided image obtained by dividing the original image data of the second page in FIG. 27. FIG. 28A is an explanatory diagram of a divided image when automatic rotation is not performed, and FIG. It is an explanatory view of a divided image when performing.
29 is an explanatory diagram of a divided image obtained by dividing the original image data of the third page of FIG. 27, FIG. 29A is an explanatory diagram of a divided image obtained without rotation, and FIG. It is explanatory drawing of the divided image divided.
30 is an explanatory diagram of a divided image printing sheet obtained by dividing and printing the original image data of FIG. 27, FIG. 27A is an explanatory diagram of the first page of the divided image printing paper, and FIG. FIG. 27C is an explanatory diagram of the divided image printing paper of the third page, and FIG. 27C is an explanatory diagram of the divided image printing paper of the third page.
31 is an explanatory diagram of a divided image printing sheet obtained by dividing and printing the original image data of FIG. 27, FIG. 31A is an explanatory diagram of the fourth page of the divided image printing paper, and FIG. FIG. 31C is an explanatory diagram of the divided image printing paper of the sixth page, and FIG. 31D is an explanatory diagram of the divided image printing paper of the seventh page.
FIG. 32 is an explanatory diagram of the original image data of the third specific example of the first embodiment. FIG. 32A is an explanatory diagram of the original image of the first page, and FIG. 32B is an explanatory diagram of the original image of the second page. FIG. 32C is an explanatory diagram of the original image of the third page.
33 is an explanatory diagram of a divided image obtained by dividing the original image data of the first page of FIG. 32, FIG. 33A is an explanatory diagram of a divided image when automatic rotation is not performed, and FIG. It is an explanatory view of a divided image when performing.
34 is an explanatory diagram of a divided image obtained by dividing the original image data of the third page of FIG. 32, FIG. 34A is an explanatory diagram of a divided image obtained without rotation, and FIG. It is explanatory drawing of the divided image divided.
35 is an explanatory diagram of a divided image printing sheet obtained by dividing and printing the original image data of FIG. 32, FIG. 35A is an explanatory diagram of the first page of the divided image printing paper, and FIG. FIG. 35C is an explanatory diagram of the divided image printing paper of the third page, and FIG. 35C is an explanatory diagram of the divided image printing paper of the third page.
36 is an explanatory diagram of a divided image printing sheet obtained by dividing and printing the original image data of FIG. 32, FIG. 36A is an explanatory diagram of the fourth page of the divided image printing paper, and FIG. FIG. 9 is an explanatory diagram of a divided image print sheet of a page.
FIG. 37 is an explanatory diagram of a divided image printing sheet obtained by dividing and printing the original image data of FIG. 32 by designating the presence of page adjustment, and FIG. 37A is a diagram of a divided image printing sheet of the first page; FIG. 37B is an explanatory diagram of the second page of the divided image printing paper, and FIG. 37C is an explanatory diagram of the third page of the divided image printing paper.
FIG. 38 is an explanatory diagram of a divided image printing sheet obtained by dividing and printing the original image data of FIG. 32 by designating the presence of page adjustment. FIG. FIG. 38B is an explanatory diagram of the fifth page of the divided image printing paper, and FIG. 38C is an explanatory diagram of the sixth page of the divided image printing paper.
FIG. 39 is a flowchart of print image data creation processing in a conventional image processing apparatus.
FIG. 40 is an explanatory diagram of an example of original image data to be printed. FIG. 40A is an explanatory diagram of a first page, an original image having an original image size of A4 length, and FIG. 40B is a second page of the original image. FIG. 40C is an explanatory diagram of the original image of the third page, the original image size A3 in the vertical direction.
41 is an explanatory diagram of a print image when the original image of FIG. 40 is printed by the print image data creation processing shown in FIG. 39. FIG. 41A is an explanatory diagram of a print image of the first page. FIG. 41B is an explanatory diagram of the print image on the second page, and FIG. 41C is an explanatory diagram of the print image on the third page.
[Explanation of symbols]
C1, C31A: Original image storage means, C2: Print parameter setting screen display means, C4: Divided print designation means, C4A: Divided print designation image display means, C4B: Divided print enable / disable storage means, C4C: Divided print enable / disable initial designation values Storage means, C5: divided print designation data creation means, C6: automatic rotation designation means, C6A: automatic rotation designation image display means, C6B: automatic rotation designation presence / absence storage means, C6C: automatic rotation direction initial designation value storage means, C7 ... Binding position designation means, C7A: binding position designation image display means, C7B: binding position storage means, C7C: binding position designation initial value storage means, C8: division print order designation means, C8A: division print order designation image display means, C8B ... Division printing order storage means, C8C ... Division printing order automatic setting designation means, C8C1 ... Division printing order automatic designation image display means, C8 2 ... Divided print order automatic setting designation storage means, C9 ... Image position designation means, C9A ... Image position designation image display means, C9B ... Image position storage means, C10 ... Division position information allocation designation means, C10A ... Division position information assignment designation Image display means, C10B: division position information assignment designation storage means, C11: reference direction information designation means, C11A: reference direction information assignment designation image display means, C11B: reference direction information assignment designation storage means, C12: page adjustment designation means, C12A: page adjustment designation image display means, C12B: page adjustment designation presence / absence storage means, C35A: sheet number discrimination means before and after rotation, C35B: automatic rotation setting means, C35B1: automatic rotation direction automatic setting means, C35C: binding position setting means , C35D: divided print order setting means, C35D1: divided print order automatic setting means, C35E: image C35E1: Automatic image position setting means, C35F: Divided position information allocating means, C35G: Reference direction information allocating means, C35H: Continuous image determining means, C35I: Page adjusting means, C36: Divided print image data generating means, 1: Print parameter setting screen, 4: Split print designation image, 5: Automatic rotation designation image, 6: Binding position designation image, 7: Split print order designation image, 7a: Split print order automatic designation image, 8: Image position designation Image, 9: designated position information allocation designated image, 10: reference direction information assigned designated image, 11: page adjustment designated image.

Claims (26)

An image processing apparatus having the following configuration requirements (A01) and (A02);
(A01) original image storage means for storing image data of an original image to be printed and an original image size which is the size of the original image;
(A02) When the original image size is larger than the print paper size that is the size of the print paper used for printing the original image, the original image is automatically divided into a plurality of print papers of the print paper size. Means for creating divided print designation data for creating divided print designation data for designating printing; An image processing apparatus having the following configuration requirements (A01) and (A02 ');
(A01) original image storage means for storing image data of an original image to be printed and an original image size which is the size of the original image;
(A02 ') When the original image size is larger than the print paper size used for printing the original image, the original image is automatically divided into a plurality of print papers of the print paper size. Means for generating divided print image data for each print sheet for printing. The image processing apparatus according to claim 1, comprising the following configuration requirement (A03):
(A03) As a printing parameter necessary for printing the original image, when the original image size is larger than the size of the printing paper, the original image is automatically divided into a plurality of sheets of the printing paper size. Means for specifying whether or not to execute automatic split printing. The image processing apparatus according to any one of claims 1 to 3, comprising the following constituent requirements (A04) and (A05):
(A04) When the original image is divided into a plurality of the printing papers and printed when the original image size is larger than the printing paper size, the original image is rotated and printed by 90 degrees on the printing paper. Means for determining the number of sheets of paper used before and after rotation, which determines whether or not the number of used printing papers decreases,
(A05) In the case where the number of sheets of printing paper to be used is reduced by performing division printing on the printing paper in a state where the original image is rotated by 90 degrees, it is set that division printing is performed in a state where the original image is rotated by 90 degrees. Automatic rotation setting means. The image processing apparatus according to claim 4, comprising the following configuration requirements (A06):
(A06) When the original image is automatically divided into a plurality of the printing papers when the original image size is larger than the printing paper size, the printing is performed in a state where the original image paper is rotated by 90 degrees. In the case where the number of sheets of printing paper to be used becomes smaller when the printing is performed on the paper in a divided manner, when the divided printing is performed in a state where the original image is rotated by 90 degrees, the automatic rotation direction which is the direction in which the original image is rotated is automatically set. Automatic rotation direction automatic setting means to set automatically. The image processing apparatus according to any one of claims 1 to 5, comprising the following configuration requirements (A07):
(A07) A binding position setting unit that sets a binding position of the printed printing paper in accordance with a user input. 6. The image processing apparatus according to claim 5, comprising the following constituent requirements (A07) and (A08).
(A07) a binding position setting unit that sets a binding position of the printed printing paper in accordance with a user input;
(A08) The automatic rotation direction automatic setting means for automatically setting the automatic rotation direction according to the setting of the binding position. The image processing apparatus according to any one of claims 1 to 7, comprising the following configuration requirement (A09):
(A09) A division print order setting unit that sets a division print order, which is an order for dividing and printing the original image, according to a user input. The image processing apparatus according to claim 5, comprising the following constituent requirements (A07), (A08), and (A010).
(A07) a binding position setting unit that sets a binding position of the printed printing paper in accordance with a user input;
(A08) the automatic rotation direction automatic setting means for automatically setting the automatic rotation direction according to the setting of the binding position;
(A010) A division print order automatic setting unit that automatically sets a division print order, which is an order of dividing and printing the original image, based on the setting of the binding position and the automatic rotation direction. The image processing apparatus according to any one of claims 1 to 9, comprising the following configuration requirement (A011):
(A011) In accordance with the size of the finished paper formed in a state where a plurality of printing papers used at the time of divided printing are arranged side by side, the original image size, and an image position designation value set by a user input. Image position setting means for setting an image position at which the original image is printed on the finished paper. The image processing apparatus according to claim 10, comprising the following constituent requirements (A07), (A08), and (A012).
(A07) a binding position setting unit that sets a binding position of the printed printing paper in accordance with a user input;
(A08) automatic rotation direction automatic setting means for automatically setting an automatic rotation direction which is a rotation direction when rotating the original image by 90 degrees according to the setting of the binding position;
(A012) Based on the binding position and the automatic rotation direction, an image position, which is a position where an original image is printed, on a finished sheet formed in a state in which a plurality of printing sheets used for divided printing are arranged side by side is automatically set. Image position automatic setting means to set the image position. The image processing apparatus according to any one of claims 1 to 11, comprising the following configuration requirement (A013):
(A013) When the original image is divided and printed, division position information indicating the positional relationship between the divided image printing sheets on which the divided image obtained by dividing the original image is printed is assigned to each of the divided image printing sheets. Location information allocation means. The image processing apparatus according to any one of claims 1 to 12, comprising the following configuration requirement (A014):
(A014) Reference direction information allocating means for setting any one of upper, lower, left and right directions as the reference direction with respect to the original image, and allocating reference direction information indicating the reference direction to the divided image obtained by dividing the original image. The image processing apparatus according to any one of claims 1 to 13, comprising the following constituent requirements (A015) and (A016):
(A015) When double-sided printing is designated and a plurality of divided images divided from one original image are double-sided printed and bound at a set binding position, a page on which the divided images are printed is displayed. In the case where the subsequent page is printed on the back side of the previous page, and the divided images printed on the previous page and the subsequent pages are shifted by one page, the previous page and the next Continuous image determining means for determining whether the divided image of the page is a continuous image,
(A016) If the divided image is shifted one page at a time and it is determined that the divided image of the previous page and the divided image of the next page are continuous images, a blank page is printed on the previous page. Page adjusting means for allocating the divided image data of the preceding page and the subsequent pages to the shifted page by one page. An image processing apparatus having the following configuration requirements (B01) to (B03);
(B01) an original image storage means for storing image data of an original image to be printed and an original image size which is the size of the original image;
(B02) a print parameter setting screen display unit for displaying a print parameter setting screen which is a screen for setting print parameters necessary for printing the original image on printing paper;
(B03) whether or not to execute automatic division printing for automatically dividing and printing the original image on a plurality of sheets of the printing paper size when the original image size is larger than the size of the printing paper on which the printing is performed; A divided print designation image display means for displaying a divided print designation image for designating the divided print designation image on the print parameter setting screen, and storing whether or not to execute automatic divided print designated by inputting to the divided print designation image. Division print designation means having division print availability storage means. The image processing apparatus according to claim 15, comprising the following configuration requirement (B03 '):
(B03 ') Whether to execute automatic division printing for automatically dividing and printing the original image on a plurality of sheets of the printing paper size when the original image size is larger than the size of the printing paper on which the printing is performed. A divided print enable / disable initial designated value storage unit that stores divided print enable / disable as an initial value of the divided print enable / disable designated value for designating whether or not the divided print enable / disable is specified; The image processing apparatus according to claim 15, comprising the following configuration requirement (B04):
(B04) When automatically dividing the original image into a plurality of the printing papers and printing the original image when the original image size is larger than the printing paper size, the printing is performed in a state where the original image paper is rotated by 90 degrees. In the case where the number of sheets of printing paper to be used becomes smaller when divided printing is performed on paper, an automatic rotation designation image for designating that the original image paper is automatically rotated and rotated by 90 degrees to perform divided printing is set to the printing parameter. An automatic rotation designation means comprising: an automatic rotation designation image display means for displaying on a setting screen; and an automatic rotation designation presence / absence storage means for storing presence / absence of designation of automatic rotation designated by input to the automatic rotation designation image. The image processing apparatus according to claim 17, comprising the following configuration requirement (B04 '):
(B04 ') Automatic rotation direction initial for storing the initial value of the automatic rotation direction which is the direction in which the original image is automatically rotated when the original image paper is automatically rotated by 90 degrees and divided printing is performed. Specified value storage means. The image processing apparatus according to any one of claims 15 to 18, wherein the image processing apparatus has the following configuration requirement (B05).
(B05) a binding position designation image display means for displaying a binding position designation image for designating a binding position of the printed printing paper on the print parameter setting screen, and designation by inputting to the binding position designation image Binding position storage means for storing a binding position specification value. 21. The image processing apparatus according to claim 20, comprising the following constituent requirements (B05 ').
(B05 ') Binding position designation initial value storage means for storing an initial value of a binding position designation value for designating a binding position of the printed printing paper. The image processing apparatus according to any one of claims 15 to 20, comprising the following configuration requirement (B06):
(B06) a divided print order designation image display means for displaying a divided print order designation image for designating a divided print order which is an order for dividing and printing the original image on the print parameter setting screen, and the divided print order Division print order storage means for storing a division print order designated by input to a designated image. 22. The image processing apparatus according to claim 21, comprising the following constituent requirements (B06 '):
(B06 ') A divided print order automatically designated image for designating that the divided print order is automatically set based on the binding position and the automatic rotation direction of the printed printing paper, on the print parameter setting screen. And an automatic division print order designation display means for displaying the presence or absence of designation of the division print order automatic setting designated by inputting to the division print order automatic designation image. Division print order automatic setting designation means. The image processing apparatus according to any one of claims 15 to 22, comprising the following configuration requirement (B07):
(B07) An image position designation image for designating an image position, which is a position where an original image is to be printed, on a finished sheet formed in a state where a plurality of printing sheets used at the time of division printing are arranged side by side, is set to the print parameter. An image position designation means comprising: an image position designation image display means for displaying on a setting screen; and an image position storage means for storing an image position designation value designated by inputting to the image position designation image. The image processing apparatus according to any one of claims 15 to 23, comprising the following configuration requirement (B08):
(B08) When the original image is divided and printed, dividing position information indicating a positional relationship between divided image printing papers on which the divided images obtained by dividing the original image are printed is allocated to each of the divided image printing papers. Division position information assignment designation image display means for displaying a division position information assignment designation image for designating the image on the print parameter setting screen, and designation of division position information assignment designated by input to the division position information assignment designation image Division position information allocation designation means having a division position information allocation designation storage means for storing the presence / absence of the information. The image processing apparatus according to any one of claims 15 to 24, comprising the following configuration requirement (B09):
(B09) A reference direction for setting any one of the upper, lower, left, and right directions as the reference direction with respect to the original image, and specifying that reference direction information indicating the reference direction is assigned to a divided image obtained by dividing the original image. A reference direction information assignment designation image display means for displaying an information assignment designation image on the print parameter setting screen; and a reference direction for storing presence / absence of designation of reference direction information assignment designated by input to the reference direction information assignment designation image. Reference direction information designating means having information allocation designation storage means. The image processing apparatus according to any one of claims 15 to 25, comprising the following configuration requirement (B010):
(B010) When double-sided printing is designated and a plurality of divided images obtained by dividing one original image are bound at a set binding position by performing double-sided printing, the page on which the divided image is printed is displayed. In the case where the subsequent page is printed on the back side of the previous page, and the divided images printed on the previous page and the subsequent pages are shifted by one page, the previous page and the next When the divided image of the page is a continuous image, a page in which blank image data is allocated to the previous page and the divided image data of the previous page and subsequent pages are allocated to a page shifted by one page A page adjustment designation image display means for displaying a page adjustment designation image for designating whether or not to execute adjustment on the print parameter setting screen; and a page adjustment designation image designated by inputting to the page adjustment designation image. Page adjustment designation presence / absence storage means for storing presence / absence Page regulation specifying means for.

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